unc-68 CDS
unc-68
Gene type: protein
organism=Caenorhabditis elegans
CDS - Protein coding sequences only (exons)
β 5201 codons, 5201 functional, 7370 bonds
Pattern Distribution:
Pattern 3 (Structural (Simple)): 620 (11.9%)
Pattern 5 (Flow (Bonding)): 587 (11.3%)
Pattern 20 (Complex (Coordination)): 1920 (36.9%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 405 (7.8%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 648 (12.5%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 414 (8.0%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 325 (6.2%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 282 (5.4%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)unc-68 - Ryanodine receptor BETA Caenorhabditis elegans Gene name Ryanodine receptor Symbol unc-68 Gene ID 179080 Locus tag CELE_K11C4.5 Organism Caenorhabditis elegans Gene type protein-coding Proteins 16 Transcripts 16 Refseq summary Predicted to enable calcium ion binding activity and ryanodine-sensitive calcium-release channel activity. Involved in locomotion; positive regulation of programmed cell death; and protein localization to organelle. Located in I band and sarcoplasmic reticulum. Is expressed in body wall musculature; intestine; muscle cell; and neurons. Used to study congenital myopathy 1A and malignant hyperthermia. Human ortholog(s) of this gene implicated in several diseases, including catecholaminergic polymorphic ventricular tachycardia 1; congestive heart failure (multiple); hepatocellular carcinoma; intracranial vasospasm; and muscle tissue disease (multiple). Orthologous to human RYR1 (ryanodine receptor 1); RYR2 (ryanodine receptor 2); and RYR3 (ryanodine receptor 3). [provided by Alliance of Genome Resources, Apr 2025]
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π΅π― π΅π― βπ βπ΅ πππͺοΈ πΈπ₯ βπ β¬β ππ πΈπ₯ βπ βπ ππ βπ΅ βπ ββ°οΈ ππ ππ² βπ βπ βπ» β¬β πππ± βπͺ β¬β βπ βπ ββ΅ πΈπ βπ§ βπ¬ βπ ππ βπ β¬β βπ€Έ πΈπ§ πβ¬π βπ βπ― βπ§ ββ ππ βπ βπ β¬π πΈβ·οΈ π΅π βποΈ πΈπ πΈπ₯ πΈβ·οΈ βπ βπ βπ π΅πΌ, ππ πΈβ·οΈ ππ² βπ° βπ βπ πΈπ ββ΅ βπ° ββ°οΈ β¬π ππ βπ₯ ππΏ πΈπ ββ βπ₯ βπ° βπ β¬π βπ βπ° β¬π βπ ππ π΅πΌ, βπ βπ β¬π βπ΅ βπͺ¨ πβ¬π πππ± βπ― πΈπ§ βπ πΈπ§ βπ πΈπ― ππ βπ π΅π― ββ‘ βποΈ β¬πͺ βπ βπͺ¨ ππ βπ» π΅π₯ βπͺ¨ πΈπ βποΈ πΈπ― ππΏ βποΈ βπ° βπ₯ β¬π βπ₯ πππ± βπ° βπ βπ π΅π₯ βπͺ πππͺοΈ βπ βποΈ βπ βπ’ πΈπ β¬πͺ ππ βπ πβ¬π πππ± β¬πͺ ππ΅ βποΈ βπ₯ πΈπ§ ββ βπ° βποΈ πΈπ§ βπͺ¨ πΈπ§ βπ ββ‘ βπͺ¨ βπ βπ§ π΅π« ππ― π𧬠ββ‘ βπ π΅π― ππ β¬π βπ βπ βπ° ππ ββ βπ» ππ ππΏ ββ πππ± βπͺ ππ βπ πΈβ·οΈ πΈπ§ βπ₯ βποΈ βπ₯ ββ‘ β¬π βπ¨ ππ― βπ ππ πππ± βπͺ βπ β¬πͺ β¬π πΈπ₯ βπ» πΈπ βπ ββ βπ πππ± βπ π΅π― πΈπ β¬π ππ βπ» πππͺοΈ πππͺοΈ βποΈ βπ πβ‘ ππ― β¬π βπ₯ β¬π βπ πππͺοΈ βποΈ βποΈ ππ ππ βπ¨ πΈβ·οΈ π΅πΌ, βπ΅ β¬π βπ§ βπ ππ ππ βποΈ βπ» βπ β¬π πΈπ₯ βπ πππ± βπ βπ§ βπ βπͺ¨ βποΈ βπ§ πΈπ βπ π𧬠πΈπ― ππ― βπ₯ πΈπ§ βπͺ β¬πͺ 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π΅π― ββ΅ βπ βπ ββ β¬β ππ ββ βπ° βπ βπ πΈπ§ β¬β πππ± βπ§ ββ‘ βποΈ ππ βπ ππ βπ βπ πππͺοΈ ππ πΈπ₯ πππ± β¬π πΈπ§ βπ― π΅π πβ¬π βπ βπ βπ΅ ππ ππ β¬β β¬πͺ ππΏ βπ₯ πΈπ ππ βπ΅ ππ΅ β¬π ππ πΈβ·οΈ πΈβ·οΈ βπ ππ πΈπ§ βπ βποΈ π΅π― βπ βπ΅ π𧬠π΅π« βπͺ¨ ππ βπ βπ βπ΅ πΈπ§ β¬β β¬πͺ βπ πΈπ βπ° πΈβ·οΈ ππΏ βπ― β¬πͺ βπ― βπ§ ββ‘ βπ ππ β¬π πππͺοΈ β¬π βπ πΈβ·οΈ π΅π« βπ πΈπ§ βπ΅ πΈπ― βπ¬ βπ π΅π« π΅π« πΈπ§ βπ βπ¬ βπͺ ππ βπ ππ² π΅π― βπ΅ β¬πͺ ββ‘ πΈπ π΅π« πππͺοΈ βπ° βπ― βπ» πππͺοΈ πΈπ― βπ πππ± ππ βπ’ βπ― πππ± βπ§ βπ π΅πΌ, βπ’ ππ― βπ ββ βπ» ππ βπ π𧬠βπ¨ βπ₯ βπ° πΈπ βπ¬ βπ πΈπ₯ βπ βπ βπ― βπ΅ βπ΅ βπ π𧬠πΈπ― βπ§ π΅πΌ, βπ₯ βπ βπ βπ§ πΈπ₯ πΈβ·οΈ π𧬠β¬π βπ πππͺοΈ βπ₯ β¬πͺ ππ πππ± βπ βπ πΈπ§ βπͺ ππ― β¬πͺ ππΏ π΅π― βπ ππ βπ πΈπ βπ πΈπ βπ΅ β¬π ππ΅ π΅π« βπ πππ± βπ βπͺ πΈβ·οΈ ββ°οΈ βπ βπ βπ βπ βπ ππ΅ βπ§ βποΈ ββ π΅π― ππ― βπ βποΈ ππ΅ β¬πͺ βπ― βπ₯ βποΈ βπ πΈπ§ π΅πΌ, π΅πΌ, βπͺ πππ± βπ§ π΅π― βπ ββ΅ ππ βπ° βπ βπ₯ πΈπ₯ ββ ββ΅ βπ πΈπ βπ― β¬πͺ ββ πβ‘ πβ‘ βπ βπ° βπ¨ βπͺ¨ ππ― ππ ββ‘ βπͺ πβ‘ β¬π« β¬β ββ‘ β¬π πππͺοΈ βποΈ βπ¬ βποΈ β¬πͺ βπ βποΈ πππ± πΈπ― βπ βπ§ π΅π« ππ΅ π΅π― πΈπ₯ πΈπ― βπ΅ ππ βπ π΅π― βπ΅ βπ β¬β ππ β¬β βπ΅ π𧬠ππ πβ‘ π𧬠πππͺοΈ βπ΅ βπ¨ πΈβ·οΈ βπ π΅π― πππͺοΈ πΈπ₯ πππ± βπ₯ πππ± βπ πΈβ·οΈ πππ± βπ πππ± β¬β βπ βπ πππ± π𧬠πΈπ§ βπ βπ― βπͺ¨ βπ° ββ°οΈ βποΈ πΈπ§ β¬π ππ βπ’ ββ βπ€Έ π΅πΌ, βπ β¬π βπ― πΈβ·οΈ π΅π― π𧬠π𧬠βπ βπ βπ ββ΅ βπ βπ₯ βπ» βποΈ βπ πΈβ·οΈ βπ π΅πΌ, βπ βπ₯ βπ ββ°οΈ βπ’ βπ βπ βπ¨ βπ βπ π΅π« βποΈ πΈπ ππ΅ ββ‘ πΈβ·οΈ β¬πͺ ππ βπ₯ β¬πͺ πππͺοΈ ππ― βπ₯ πππͺοΈ β¬π βπ₯ πππ± ππ― π΅π― ββ‘ πΈβ·οΈ βπ» πππ± βπ― βπ― πβ‘ πΈβ·οΈ ββ‘ πΈπ― π΅πΌ, βπͺ¨ βπ° π𧬠ππ― βπ βπ΅ βπ βπ§ βπ ββ ππ βπ βπ° βπ¬ βπ βποΈ βπ β¬πͺ βπ° β¬π βπ βπ§ ππ πΈπ βπ πΈπ― ππ― πΈβ·οΈ βπ βπ΅ ππ΅ βπ§ πΈβ·οΈ πππ± βπͺ βπͺ πππ± π𧬠πΈπ βπ πΈπ₯ βπ₯ ππ πΈβ·οΈ βπ¬ β¬π ππ΅ βπ» βπ ππ βπ° π΅π« β¬β πβ¬π βπ ππ² ππ― βπ ββ‘ β¬π ππ π΅π― ββ΅ ππ β¬β β¬π β¬β βπͺ¨ βπ ππ βπ― βποΈ ππ βπ₯ βπ₯ βπ§ βπ₯ β¬β β¬πͺ πΈπ πΈβ·οΈ π΅π― β¬β π΅πΌ, π𧬠βπ§ π΅π βπ πΈπ βπ¬ π΅πΌ, βπ― ββ΅ π΅π― βπ΅ βπ΅ ππ βπ° βπ βπ ππ ββ΅ βπ€Έ βπ₯ πΈπ§ βποΈ βπ¬ βπ§ πππ± πΈπ βπ ππ βπ ππ βπ€Έ πΈπ β¬β βπ€Έ π΅πΌ, β¬πͺ βπ» βπ β¬π βπ βπ» βπ§ πΈπ βπͺ βπ΅ βπ¬ βπ° πΈπ ββ‘ πππ± ββ‘ πππ± βποΈ βπ΅ ππ βπ¬ β¬π β¬β ββ π𧬠βπ βπ βπ§ πππ± ππ΅ β¬π β¬β βπ₯ βπ§ π΅π― π΅π« βπ€Έ β¬π« βποΈ β¬πͺ π΅πΌ, βπ ππ βπ― β¬πͺ πππͺοΈ π΅π₯ π΅π₯ βπ° π΅π― β¬β ππ― πππͺοΈ πππͺοΈ πππͺοΈ ππ― ππ β¬π β¬πͺ ππΏ βπ₯ πππͺοΈ βπ ππ β¬β βπ βπ΅ π΅πΌ, ππ― βπ β¬πͺ ππ― ββ°οΈ βπ° βπͺ ππ ππ βπ₯ ππ βποΈ βπ§ π΅π― ββ‘ βπ° πΈπ βπ° π΅π« πΈπ― πΈπ§ πππͺοΈ ππ― βποΈ βπ’ ππ πΈβ·οΈ ππ βπ’ π𧬠πΈπ ππ΅ β¬πͺ β¬πͺ ππ― β¬β βπ βπ₯ βπ° βπ πππ± πππ± βπ πππͺοΈ β¬β πππͺοΈ βπ΅ βπͺ ππΏ πππͺοΈ β¬π βπ― β¬π β¬β πππͺοΈ βπ° ππ² β¬β βπ΅ βπͺ πππͺοΈ βποΈ βπ βποΈ β¬π βπ° ππ πΈπ ππ βπ βπ₯ ππ βπ― π΅πΌ, ππ βπ π΅π₯ πΈπ πππ± βπ πΈπ βπ ββ΅ βπ¬ ππ βπ β¬πͺ πππͺοΈ ββ‘ πππ± βπ π΅π β¬π« ππ π΅πΌ, β¬π βπ βπ πππ± βπ₯ βπ§ βπ βπ° β¬β ππ βπͺ βπ΅ βπ βπ β¬πͺ πππ± πΈπ πβ‘ π΅π« βπ° βπ βπͺ¨ βπ€Έ βπ€Έ β¬β βποΈ ββ°οΈ πππ± βπ πππ± ββ βπ¨ πππ± π΅π― πΈπ ππ ππ βπ πΈπ βπ¨ βπ€Έ πππ± ππ² ππ βπ¬ π΅π« πΈβ·οΈ βπ π΅π₯ πΈπ― βπ΅ π΅π βπ πΈβ·οΈ ππ ββ βπ β¬πͺ βπ° ππ πβ¬π βποΈ βπ¬ βποΈ βπͺ π𧬠ππ΅ βπ΅ βπ ππ π΅π― ππ΅ βπ πβ¬π βπ πΈπ βπ β¬π β¬π β¬π βπ₯ βπ§ β¬πͺ πππ± βπ₯ ππΏ πΈπ§ βπ° βπ§ βπ₯ βπ° πΈπ― πΈπ₯ β¬πͺ πΈβ·οΈ β¬π β¬β β¬π β¬π βποΈ ππ ππ― βπ° β¬π βπ° βπ° βπ β¬π β¬β β¬πͺ πΈπ ππ βπ° πΈβ·οΈ π΅π― πβ‘ πΈπ β¬π βπ₯ βπ ππ β¬π πππͺοΈ β¬π πΈπ βπ ππ βπ₯ βποΈ βπ ππ ππΏ βπ βπ° πβ¬π βπ βπ΅ πππ± ππ― π΅π― π΅π― πΈπ ββ‘ β¬π β¬π βπ― π΅π₯ βπ§ βπ βπ§ βπ° βπͺ¨ β¬π π΅πΌ, ββ‘ βπ’ ββ΅ βπͺ ππ― ππ΅ βπ§ βπ₯ πΈβ·οΈ βπ π΅π― ππ βπ βπͺ βποΈ βπͺ β¬π β¬β β¬π π΅πΌ, β¬πͺ β¬π π΅πΌ, β¬πͺ β¬π β¬π ππ β¬π βπ° βπ₯ πππ± βπ§ π΅π« ππ β¬π β¬π πππ± βπ πππ± βπ§ βπ π΅π βποΈ β¬β ππΏ π΅π― πΈβ·οΈ πΈπ§ π΅π₯ πβ‘ ππ― β¬πͺ π΅π― βπ§ βπͺ βπ βπ βπ βπ ββ΅ ββ βπ¨ π΅π₯ πΈπ₯ β¬πͺ βποΈ β¬π ππ βπ β¬π βπ πΈπ βπ§ ππΏ βπ― βπ ππΏ βπ β¬πͺ βπ° βποΈ βποΈ βπ πβ‘ βποΈ β¬πͺ π𧬠πΈβ·οΈ β¬π βπ° πππ± πππͺοΈ βπ βπ βπͺ β¬π βπ βπ ππΏ βπ ππ ππ βπ₯ πΈβ·οΈ ππ² βπ΅ βπ΅ βπ― πΈπ βπ βπ§ βποΈ πΈπ§ βπ π𧬠πππͺοΈ πΈπ― πΈπ πΈβ·οΈ βπ βπ βπ’ β¬π βπ ππ΅ β¬π βπ¬ πππ± βπͺ πππͺοΈ βπ§ β¬π βποΈ βπ β¬πͺ βπ β¬πͺ βπ§ β¬π βπ π΅π― βπ¨ β¬π« π΅πΌ, βπ πππ± π𧬠πΈπ§ π𧬠βπ₯ π΅π― π΅πΌ, βπ΅ βπ βπ βπ ββ βπ΅ ππ βπ΅ πΈπ§ πππ± βπ βπ― πΈπ― β¬π ππ βπͺ¨ π𧬠ββ β¬π βπ΅ πππ± π𧬠ββ΅ βπ ππ² βπ πππ± βποΈ ππ βποΈ βπ βπ πβ‘ πΈπ π𧬠πΈπ§ βπͺ π𧬠βπ βπ― πΈπ βπ₯ βπ βπ βπ βπ¬ βπ ππΏ β¬β βπ¨ πΈβ·οΈ βπ π΅πΌ, βπ΅ ββ΅ πΈπ βποΈ βπ πΈπ₯ πβ‘ ππ β¬π βπ» βπ° βπ₯ β¬π βποΈ β¬πͺ ππ β¬π ββ΅ βπ΅ βπ βπ¬ π΅π― βπ° πππ± βπ πΈπ― ββ‘ ππΏ βπ βπ΅ βπ βπ βπ βπ― β¬β βπ¨ βπ° ππΏ βποΈ ππ βπ πΈβ·οΈ βποΈ π𧬠ππΏ βπ βπ― πΈπ§ π΅π« π𧬠πΈπ₯ π΅π βπ πΈπ βπ₯ π΅π« βπͺ π𧬠βποΈ βπ΅ βπ΅ ππ΅ βπ ππ΅ βπ§ βπͺ¨ βπ βπ β¬β ππ βπ ββ΅ πππͺοΈ βπ πΈπ₯ πΈπ πππ± βπ β¬π βπ βπ ππ² β¬β βπ΅ βπ π𧬠βποΈ πππ± ππ π΅πΌ, βπ βπ° πΈβ·οΈ βπ βπ βπ πΈπ βπ βπ β¬π ππ βπ πΈβ·οΈ πΈπ§ π𧬠βποΈ βπ βπ° βποΈ πππͺοΈ ππΏ βπ βπ π΅πΌ, βπ§ βπ βπ β¬π πΈπ πππ± ππ πΈπ βπ β¬β πππͺοΈ βπ° πΈπ§ ππ βπ΅ βπ¨ βπ₯ βπ βπ΅ πΈπ§ πππͺοΈ πΈπ§ πππͺοΈ βπ₯ πΈπ§ πΈπ βπ πΈπ₯ πππ± π΅π« βπ΅ πππ± π΅πΌ, ππ΅ βπ₯ βπ βπ πππ± π΅πΌ, β¬πͺ πΈπ βπ° ββ‘ βποΈ ππ β¬π βπ΅ πππ± βπ¬ π΅π― βπ β¬π ββ‘ ππΏ πππͺοΈ βπ ββ΅ βπ― βπ» β¬π βπ₯ βπ° βπ βπ ββ βπ βπ πΈπ― βπ― βπ₯ πΈβ·οΈ π𧬠π𧬠βπ₯ β¬πͺ ππ πΈβ·οΈ π΅πΌ, ββ΅ βπ β¬π βπ΅ βπ― β¬π ππ² βπ΅ βπͺ¨ βπ βποΈ π΅π₯ ππ― π΅πΌ, βπ° βποΈ ππ΅ π𧬠πΈπ§ π΅π― βπ ββ βπ πΈπ π𧬠ββ πππͺοΈ β¬β βπͺ¨ βπͺ βπ βπ βπ₯ ππ ππ― βπ β¬π πππͺοΈ βπͺ βπ β¬β πππͺοΈ βπ§ πππ± βπ βπ ββ β¬π ββ΅ ππ΅ π΅πΌ, ππ βπ΅ βπ β¬πͺ ππ― βπͺ β¬β βπ° βπ β¬πͺ βπ βπ πππͺοΈ ππ― πΈβ·οΈ β¬β ππ βπ° ββ΅ ππ΅ β¬π βπ° πππ± β¬π βπ¨ πΈπ ββ β¬π πππ± πΈπ β¬πͺ ππ πππ± ππΏ βπ° πβ¬π βπ₯ βπ¨ πππͺοΈ π𧬠βπ¨ βπ΅ βπ βπ΅ βπ πΈβ·οΈ πΈπ§ πππ± π΅πΌ, βπ₯ β¬π« βποΈ π΅πΌ, πππ± β¬πͺ ππ βπ β¬π βπ§ βπ΅ βπͺ βπ βπ΅ πΈπ― β¬π π΅πΌ, βπ― βπ° ππ΅ β¬π βπ ππΏ βποΈ π΅π« π΅π₯ π΅π₯ βπ° πΈπ₯ πΈπ₯ ππ βπ₯ ββ‘ π΅πΌ, πΈπ πππͺοΈ βπ β¬π ππ― βπ§ βπͺ ππ ππΏ ππ― π΅πΌ, βπ βπ΅ πΈπ§ πππ± πππ± βπ― πΈπ₯ π΅π― π΅πΌ, βπͺ¨ βπ° πΈπ₯ β¬π βπ βπ΅ πππͺοΈ πβ‘ βποΈ ββ΅ π𧬠βπ βποΈ βπͺ βπ¨ π΅π― π΅π₯ βπ π΅π― βπ ββ‘ βποΈ πππ± π𧬠βπ° βπ βπ βπ€Έ βπ πβ¬π βπ πΈβ·οΈ βπ πΈπ₯ βπ¨ πΈβ·οΈ ππ² ππΏ βπ βπ πΈπ βπ πππ± πΈπ§ βπ βπ π΅π― πΈπ βπ βπ° βπ βπ΅ βπͺ ππ― π΅π― β¬πͺ πΈπ§ π΅π₯ βπ° βποΈ πΈπ π΅π― β¬πͺ βπ βπ βπ βπ βπ βπ βπ βπ΅ ππ― βπ΅ β¬π« βπ βπ΅ ββ βπ€Έ βπ€Έ βπ πΈπ₯ β¬π β¬β β¬π β¬π π΅π« π΅π₯ ππ― πππ± β¬π πππͺοΈ β¬π πππ± π΅π― πππͺοΈ βπ βπ βπ β¬π βποΈ ππ βπ βπ΅ βπ βποΈ ππ βπ° βπ πππ± β¬π βπ΅ βποΈ βποΈ πΈπ₯ βποΈ πΈβ·οΈ β¬πͺ βπ βπ― π΅π« βπ΅ β¬πͺ πΈπ βποΈ βπ βπ π΅π― βπ₯ βποΈ ββ βπ πΈβ·οΈ π𧬠βπ πΈπ§ ππ π΅πΌ, βπ΅ βπ ππ βποΈ β¬π ππ― ππ β¬π βπ― βποΈ β¬π βπ βπ» βποΈ β¬π β¬π β¬π ππ βποΈ βπ βπ πππ± β¬π βπ― πΈπ ππ ππ βπ πΈπ ππ βπ― πΈπ₯ ππ π΅π― πβ‘ πππͺοΈ π΅π― ππ πβ‘ βπ° βπ β¬π πΈπ₯ βπͺ βποΈ π΅π― βποΈ πππ± βπ πΈβ·οΈ ππΏ βπ ππΏ βπ¨ β¬π βπ§ π΅πΌ, βπ΅ ππΏ πππ± βποΈ πππ± ββ΅ β¬β ββ°οΈ πππͺοΈ βπ° π΅π₯ β¬β πΈπ π𧬠πΈπ βπ πππͺοΈ πβ‘ π΅π β¬πͺ πΈπ₯ βπ βπ βπ βπ βπ π΅π― ππ― π𧬠βπ΅ ππ βπ βπͺ β¬π πππͺοΈ βπͺ βπ― πΈπ§ ββ΅ πΈπ§ βπ§ βπ΅ βπ΅ βπͺ βπ πΈβ·οΈ βπ° βπ πΈπ§ βπ΅ βπͺ¨ ππ― βπ» βπ₯ βπͺ βπ βποΈ βπ§ β¬π βπ βπ§ β¬π βπ§ π΅π― βπ¨ β¬π β¬πͺ π΅πΌ, π΅πΌ, βπ₯ β¬π βπ₯ βπ§ βπ β¬π βπ¨ βπͺ βπ΅ βπ βπ β¬πͺ βπ πππ± βπ΅ ππ ββ΅ βπ β¬π βπ β¬β βπͺ βπ― β¬πͺ πΈπ βπ βποΈ π΅π― πππ± βπ° βπ βπ πΈπ βπ° ββ‘ πΈβ·οΈ βπ βποΈ πΈπ§ πΈπ₯ βπ― βπ ππ΅ βπ§ βπ πΈπ§ πΈπ βπ βπ΅ βπ πππ± βπ πππͺοΈ βπ° ππ βπ βπͺ βπ― βπ΅ πππͺοΈ βπ¬ β¬β πππͺοΈ β¬π βπ° π΅π« ππ― ππ πΈπ§ βπ βπ΅ βπ₯ βποΈ βπ πΈπ βπ βπ― β¬π β¬π π΅πΌ, βπ¨ β¬π β¬π βπ’ β¬πͺ βπ° βπ βπ₯ βπ― βπ΅ βπ πΈπ βπ βπ βπ₯ ππ― βπ° πΈβ·οΈ πΈπ πΈπ₯ π΅π― πππͺοΈ βπ βπ΅ ββ°οΈ βπ βπ ββ΅ πΈπ π΅πΌ, πππͺοΈ ππ΅ πΈπ π΅π ππ― πππͺοΈ βπ― βπ¬ βπ πππͺοΈ βπ΅ πππͺοΈ βπ₯ πππ± βπ» π΅πΌ, β¬β β¬β βπ πΈπ§ βπ― βπ¨ βπͺ πΈπ§ β¬πͺ β¬π β¬β ππ βπ βπ¨ βπ βπ₯ πΈπ πβ‘ ββ΅ π΅πΌ, ββ΅ ππ― ββ΅ πΈπ βπ πΈπ πΈπ§ πΈπ βπ° βποΈ βπ βπͺ βπ πΈπ βπ ππ πππ± βπ΅ ββ ββ΅ βπ¬ πΈβ·οΈ β¬πͺ ββ΅ βπ βπ βπ βπ π΅π₯ βπ β¬πͺ βπ βπ΅ βπ’ βπ ππ βπ΅ βπ΅ ββ΅ βπ§ βπ΅ βπͺ¨ πΈπ§ βπ° π΅πΌ, πΈπ βπ βπ βπ βπ΅ βποΈ βπ βποΈ πππͺοΈ βπ§ βπ° βπ πππ± βπ πΈβ·οΈ βπ βπͺ¨ π𧬠πΈπ§ πππ± πππ± βπ βπ° βπ πΈπ βπͺ βπ βπ βπ βπ βπ» πΈπ βπ βπ βπ ββ΅ βπ― πΈπ βπͺ π΅π₯ βπ΅ βπ βπ΅ βπ΅ βπ¬ ππ βπ΅ βπ πΈβ·οΈ πππ± β¬β βποΈ β¬π β¬β β¬π« β¬π β¬β ππ βπ₯ ππ² πππͺοΈ πΈπ― βπͺ¨ βπ βπ βπ πΈπ πΈπ― βπ΅ βπ° ββ΅ βποΈ ππ΅ βπ π΅π« β¬πͺ βπ βπ¬ π΅π« βποΈ β¬πͺ βποΈ βπ° β¬πͺ βπ₯ β¬β βπ β¬β ββ‘ ππ βπ β¬π« π΅πΌ, βπ₯ πΈπ§ β¬π βπ ππ ππ― βπ βπ΅ ββ΅ π΅πΌ, βπͺ βπ βπ΅ βπ΅ βπ΅ βπ΅ πΈπ βπ° βπ° βπ° βπ βπ βπ§ βπͺ βπ ππΏ βποΈ πΈπ§ βπͺ βπͺ π΅πΌ, βπ§ βπ΅ β¬πͺ β¬β βπ βπ¬ βπ₯ πππ± πππ± β¬π πΈπ₯ π΅π― βπ― β¬β πππͺοΈ βπ β¬β βπ βπ πΈπ― βπ΅ βπ° βπ π΅πΌ, βπͺ β¬π« ππ β¬π βπ€Έ ππ΅ βπ₯ ππ βπ βποΈ ππ² β¬π« βπ΅ β¬π βπ° βπͺ¨ πΈπ πΈπ ππ β¬β βπͺ¨ π𧬠ππ΅ π΅π« βπ ββ΅ ββ βπ΅ βπ΅ βποΈ πππ± βποΈ ββ πΈπ π𧬠ππ π΅πΌ, β¬π βπ β¬β ββ΅ βπ― βποΈ πππ± β¬π βπ€Έ ββ΅ βπ» βπ¬ β¬β πππͺοΈ ββ΅ βπ₯ βπ ππ² π΅πΌ, πΈπ π΅πΌ, βπ΅ βπ΅ βποΈ πΈπ β¬πͺ β¬β πΈπ― βπ΅ πΈπ ππ ππΏ ββ΅ β¬β βπ₯ πππ± πΈπ§ βπ πππ± βπ βπ
Gene Report
π¬ UNC-68_CDS
Function: β SYMMETRY BUILDER (Pentagon Geometry)
Total Codons: 5201, Functional: 5201
Pattern Distribution:
Pattern 3 (Structural (Simple)): 620 (11.9%)
Pattern 5 (Flow (Bonding)): 587 (11.3%)
Pattern 20 (Complex (Coordination)): 1920 (36.9%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 405 (7.8%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 648 (12.5%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 414 (8.0%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 325 (6.2%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 282 (5.4%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
Flow/Structure Ratio: 0.95 - π Structure Heavy: flexible bonding
Folding Strategy: π― CENTER-OUT FOLDING (Core formation first)
Bonding Sites: 7370
Early bonds: 2113 (avg distance: 49.7)
Middle bonds: 2979 (avg distance: 49.3)
Late bonds: 2278 (avg distance: 50.2)
π Protein Folding - Bond/Coordination Candidates:
π’ @1 (20+5 :ATG) πͺ 73(-3) β To @(20+8 TAC) <> π΄ High Energy Collision 52, 69, 71, 80, 86, 87 β To @(20+5 ATG)
π· @5 (3+7 :TTC) πͺ 18, 61, 94(-1) β To @(201+1 AAG)
π· @6 (20+20 :ACG) πͺ 23, 26, 44, 53, 70 β To @(20+12 TGC)
π’ @9 (20+9 :TCA) πͺ 91(-6) β To @(20+21 AGT) <> π΄ High Energy Collision 29, 38, 88 β To @(20+9 TCA)
π· @11 (202+3 :GAG) πͺ 24, 36 β To @(20+15 CTC) <> π΄ High Energy Collision 39, 46, 56, 85 β To @(202+2 GAA)
π’ @13 (20+2 :CAT) πͺ 111 β To @(20+22 GTA) <> π΄ High Energy Collision 93 β To @(20+2 CAT)
π· @14 (201+2 :AAC) πͺ 43 β To @(5+3 TTG) <> π΄ High Energy Collision 50, 57, 76 β To @(201+2 AAC)
π· @16 (5+4 :GTT) β 43(2) β To @(5+3 TTG) <> π΄ High Energy Collision 27, 35, 41 β To @(5+4 GTT)
π· @17 (20+19 :ACA) πͺ 42(4) β To @(5+2 TGT) <> π΄ High Energy Collision 54, 104 β To @(20+19 ACA)
π· @18 (201+1 :AAG) πͺ 5 β To @(3+7 TTC) <> π΄ High Energy Collision 37, 61, 94, 114 β To @(201+1, 201+5 AAG, GGG)
π’ @20 (204+1 :GAC) πͺ 55, 78, 105(-2), 113(2) β To @(20+1 CTG) <> π΄βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 60, 62, 103 β To @(204+1, 205+1 AAA, GAC)
π’ @22 (5+6 :GTC) πͺ 84, 112(3), 117 β To @(203+2 CAG)
π· @23 (20+12 :TGC) πͺ 6 β To @(20+20 ACG) <> π΄ High Energy Collision 26, 44, 53, 70 β To @(20+12 TGC)
π· @24 (20+15 :CTC) πͺ 11 β To @(202+3 GAG) <> π΄ High Energy Collision 36, 122 β To @(20+15 CTC)
π· @25 (5+7 :TCC) β 45(-1) β To @(5+8 ACC) <> π΄ High Energy Collision 97 β To @(5+7 TCC)
π· @26 (20+12 :TGC) πͺ 6 β To @(20+20 ACG) <> π΄ High Energy Collision 23, 44, 53, 70 β To @(20+12 TGC)
π· @27 (5+4 :GTT) β 43(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 16, 35, 41, 116 β To @(5+4 GTT)
π’ @29 (20+9 :TCA) πͺ 91, 118 β To @(20+21 AGT) <> π΄ High Energy Collision 9, 38, 88, 126, 127 β To @(20+9 TCA)
π· @30 (20+13 :CAC) πͺ 58 β To @(20+23 GTG) <> π΄ High Energy Collision 102, 109 β To @(20+13 CAC)
π’ @31 (3+2 :AAT) π 83(-1), 106 β To @(3+1 TTA)
π’ @32 (201+3 :AGA) πͺ 95, 129 β To @(5+1 TCT) <> π΄ High Energy Collision 40, 81 β To @(201+3 AGA)
π’ @33 (20+24 :GAT) πͺ 125 β To @(20+17 CTA) <> π΄ High Energy Collision 2, 4, 7, 10, 12, 66, 75, 90, 92 β To @(20+24 GAT)
π° @35 (5+4 :GTT) β 43(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 16, 27, 41, 116 β To @(5+4 GTT)
π· @36 (20+15 :CTC) πͺ 11 β To @(202+3 GAG) <> π΄ High Energy Collision 24, 122 β To @(20+15 CTC)
π’ @38 (20+9 :TCA) πͺ 91, 118(-2) β To @(20+21 AGT) <> π΄ High Energy Collision 9, 29, 88, 126, 127, 130 β To @(20+9 TCA)
π’ @40 (201+3 :AGA) πͺ 95, 129(-1) β To @(5+1 TCT) <> π΄ High Energy Collision 32, 81 β To @(201+3 AGA)
π° @41 (5+4 :GTT) β 43(2) β To @(5+3 TTG) <> π΄ High Energy Collision 16, 27, 35, 116, 140 β To @(5+4 GTT)
π· @42 (5+2 :TGT) βπͺ Flow Figure8 + Opposites17(4), 54(-1), 95, 104, 129(-1) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 124 β To @(5+2 TGT)
π° @43 (5+3 :TTG) βπͺ Flow Figure8 + Opposites14, 16(2), 27(-2), 35(-2), 41(2), 50, 57(2), 76, 116(-2), 140(-2) β To @(201+2, 5+4 AAC, GTT)
π’ @44 (20+12 :TGC) πͺ 6 β To @(20+20 ACG) <> π΄ High Energy Collision 23, 26, 53, 70, 128 β To @(20+12 TGC)
π· @45 (5+8 :ACC) β 25(-1), 97 β To @(5+7 TCC)
π· @47 (202+5 :GGC) πͺ 64 β To @(20+14 CCG) <> π΄ High Energy Collision 98 β To @(202+5 GGC)
π° @50 (201+2 :AAC) πͺ 43 β To @(5+3 TTG) <> π΄ High Energy Collision 14, 57, 76 β To @(201+2 AAC)
π· @52 (20+5 :ATG) πͺ 73(-2), 107, 121(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 69, 71, 80, 86, 87, 120 β To @(20+5 ATG)
π’ @53 (20+12 :TGC) πͺ 6 β To @(20+20 ACG) <> π΄ High Energy Collision 23, 26, 44, 70, 128 β To @(20+12 TGC)
π· @54 (20+19 :ACA) πͺ 42(-1), 124(1), 149 β To @(5+2 TGT) <> π΄ High Energy Collision 17, 104, 152 β To @(20+19 ACA)
π° @55 (20+1 :CTG) πͺ 20, 60, 62, 132 β To @(204+1 GAC) <> π΄ High Energy Collision 78, 105, 113 β To @(20+1 CTG)
π· @57 (201+2 :AAC) πͺ 43(2) β To @(5+3 TTG) <> π΄ High Energy Collision 14, 50, 76 β To @(201+2 AAC)
π· @58 (20+23 :GTG) πͺ 30, 102(-1), 109 β To @(20+13 CAC)
π° @60 (204+1 :GAC) πͺ 55, 78(-2), 105(-1), 113(-2) β To @(20+1 CTG) <> π΄βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 20, 62, 103, 132, 133, 158 β To @(204+1, 205+1 AAA, GAC)
π’ @61 (201+1 :AAG) πͺ 5 β To @(3+7 TTC) <> π΄ High Energy Collision 18, 37, 94, 114 β To @(201+1, 201+5 AAG, GGG)
π° @62 (204+1 :GAC) πͺ 55, 78, 105(-2), 113(-2) β To @(20+1 CTG) <> π΄βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 20, 60, 103, 132, 133, 158 β To @(204+1, 205+1 AAA, GAC)
π· @64 (20+14 :CCG) πͺ 47, 98(3) β To @(202+5 GGC)
π’ @65 (203+4 :CCA) πͺ 100(3), 101(2) β To @(20+25 GGT) <> π΄ High Energy Collision 155 β To @(203+4 CCA)
π’ @66 (20+24 :GAT) πͺ 125 β To @(20+17 CTA) <> π΄ High Energy Collision 2, 4, 7, 10, 12, 33, 75, 90, 92, 137 β To @(20+24 GAT)
π° @69 (20+5 :ATG) πͺ 73(-2), 107, 121(-3) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 52, 71, 80, 86, 87, 120 β To @(20+5 ATG)
π’ @70 (20+12 :TGC) πͺ 6 β To @(20+20 ACG) <> π΄ High Energy Collision 23, 26, 44, 53, 128 β To @(20+12 TGC)
π° @71 (20+5 :ATG) πͺ 73(2), 107(-2), 121(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 52, 69, 80, 86, 87, 120 β To @(20+5 ATG)
π° @73 (20+8 :TAC) πͺ 1(-3), 52(-2), 69(-2), 71(2), 80(-2), 86(-3), 87(-3), 120(-1) β To @(20+5 ATG) <> π΄ High Energy Collision 107, 121 β To @(20+8 TAC)
π’ @75 (20+24 :GAT) πͺ 125 β To @(20+17 CTA) <> π΄ High Energy Collision 2, 4, 7, 10, 12...,90, 92, 137, 170 β To @(20+24 GAT)
π’ @76 (201+2 :AAC) πͺ 43, 174(1) β To @(5+3 TTG) <> π΄ High Energy Collision 14, 50, 57 β To @(201+2 AAC)
π· @78 (20+1 :CTG) πͺ 20, 60(-2), 62, 132, 171 β To @(204+1 GAC) <> π΄ High Energy Collision 55, 105, 113 β To @(20+1 CTG)
π° @80 (20+5 :ATG) πͺ 73(-2), 107, 121(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 52, 69, 71, 86, 87, 120 β To @(20+5 ATG)
π· @81 (201+3 :AGA) πͺ 95(-2), 129(2) β To @(5+1 TCT) <> π΄ High Energy Collision 32, 40, 160 β To @(201+3 AGA)
π’ @83 (3+1 :TTA) π 31(-1), 131(2), 144(-1) β To @(3+2 AAT) <> π΄ High Energy Collision 106 β To @(3+1 TTA)
π’ @84 (203+2 :CAG) πͺ 22, 168, 172, 175 β To @(5+6 GTC) <> π΄ High Energy Collision 112, 117 β To @(203+2 CAG)
π· @86 (20+5 :ATG) πͺ 73(-3), 107, 121(-4) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 52, 69, 71, 80, 87, 120, 185 β To @(20+5 ATG)
π· @87 (20+5 :ATG) πͺ 73(-3), 107, 121(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 52, 69, 71, 80, 86, 120, 185 β To @(20+5 ATG)
π° @88 (20+9 :TCA) πͺ 91(-1), 118(-1) β To @(20+21 AGT) <> π΄ High Energy Collision 9, 29, 38, 126, 127, 130, 161, 176 β To @(20+9 TCA)
π’ @89 (204+3 :GCG) πͺ 167 β To @(204+5 CGC) <> π΄ High Energy Collision 110 β To @(204+3 GCG)
π’ @90 (20+24 :GAT) πͺ 125(6) β To @(20+17 CTA) <> π΄ High Energy Collision 2, 4, 7, 10, 12...,75, 92, 137, 170 β To @(20+24 GAT)
π° @91 (20+21 :AGT) πͺ 9(-6), 29, 38, 88(-1), 126(8), 127(6), 130, 161, 176 β To @(20+9 TCA) <> π΄ High Energy Collision 118, 188 β To @(20+21 AGT)
π’ @92 (20+24 :GAT) πͺ 125(7) β To @(20+17 CTA) <> π΄ High Energy Collision 2, 4, 7, 10, 12...,75, 90, 137, 170 β To @(20+24 GAT)
π· @93 (20+2 :CAT) πͺ 111, 138(-2) β To @(20+22 GTA) <> π΄ High Energy Collision 13, 115, 154 β To @(20+2 CAT)
π’ @94 (201+1 :AAG) πͺ 5(-1) β To @(3+7 TTC) <> π΄ High Energy Collision 18, 37, 61, 114, 165 β To @(201+1, 201+5 AAG, GGG)
π· @95 (5+1 :TCT) βπͺ Flow Figure8 + Opposites32, 40, 42, 81(-2), 124(2), 149(-2), 160, 181 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 129 β To @(5+1 TCT)
π’ @97 (5+7 :TCC) β 45 β To @(5+8 ACC) <> π΄ High Energy Collision 25, 157 β To @(5+7 TCC)
π’ @98 (202+5 :GGC) πͺ 64(3) β To @(20+14 CCG) <> π΄ High Energy Collision 47, 190 β To @(202+5 GGC)
π’ @100 (20+25 :GGT) πͺ 65(3), 155 β To @(203+4 CCA) <> π΄ High Energy Collision 101, 169 β To @(20+25 GGT)
π’ @101 (20+25 :GGT) πͺ 65(2), 155 β To @(203+4 CCA) <> π΄ High Energy Collision 100, 169 β To @(20+25 GGT)
π’ @102 (20+13 :CAC) πͺ 58(-1), 166, 193 β To @(20+23 GTG) <> π΄ High Energy Collision 30, 109, 184, 198 β To @(20+13 CAC)
π· @104 (20+19 :ACA) πͺ 42, 124, 149 β To @(5+2 TGT) <> π΄ High Energy Collision 17, 54, 152, 179, 200 β To @(20+19 ACA)
π· @105 (20+1 :CTG) πͺ 20(-2), 60(-1), 62(-2), 132(1), 171(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 55, 78, 113 β To @(20+1 CTG)
π· @106 (3+1 :TTA) π 31, 131(4), 144, 203 β To @(3+2 AAT) <> π΄ High Energy Collision 83 β To @(3+1 TTA)
π· @107 (20+8 :TAC) πͺ 52, 69, 71(-2), 80, 86, 87, 120(-2), 185(-3), 192(1) β To @(20+5 ATG) <> π΄ High Energy Collision 73, 121, 187, 191 β To @(20+8 TAC)
π’ @109 (20+13 :CAC) πͺ 58, 166(4), 193(3) β To @(20+23 GTG) <> π΄ High Energy Collision 30, 102, 184, 198 β To @(20+13 CAC)
π’ @110 (204+3 :GCG) πͺ 167(7) β To @(204+5 CGC) <> π΄ High Energy Collision 89 β To @(204+3 GCG)
π° @111 (20+22 :GTA) πͺ 13, 93, 115(-1), 154 β To @(20+2 CAT) <> π΄ High Energy Collision 138 β To @(20+22 GTA)
π’ @112 (203+2 :CAG) πͺ 22(3), 168(4), 172(4), 175, 207(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 84, 117, 205 β To @(203+2 CAG)
π· @113 (20+1 :CTG) πͺ 20(2), 60(-2), 62(-2), 132, 171(6) β To @(204+1 GAC) <> π΄ High Energy Collision 55, 78, 105 β To @(20+1 CTG)
π° @115 (20+2 :CAT) πͺ 111(-1), 138(-1) β To @(20+22 GTA) <> π΄ High Energy Collision 93, 154 β To @(20+2 CAT)
π· @116 (5+4 :GTT) βπͺ Flow Figure8 + Opposites43(-2), 141, 159(2), 174(9), 183, 199(1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 27, 35, 41, 140, 177 β To @(5+4 GTT)
π’ @117 (203+2 :CAG) πͺ 22, 168, 172(3), 175(7), 207 β To @(5+6 GTC) <> π΄ High Energy Collision 84, 112, 205 β To @(203+2 CAG)
π° @118 (20+21 :AGT) πͺ 29, 38(-2), 88(-1), 126, 127, 130, 161, 176(5), 196, 206 β To @(20+9 TCA) <> π΄ High Energy Collision 91, 188, 208 β To @(20+21 AGT)
π° @120 (20+5 :ATG) πͺ 73(-1), 107(-2), 121(4), 187(-2), 191 β To @(20+8 TAC) <> π΄ High Energy Collision 52, 69, 71, 80, 86, 87, 185, 192, 212, 217 β To @(20+5 ATG)
π° @121 (20+8 :TAC) πͺ 52(-2), 69(-3), 71(-2), 80(-2), 86(-4), 87(-2), 120(4), 185(-1), 192, 212(-2), 217(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 73, 107, 187, 191 β To @(20+8 TAC)
π° @124 (5+2 :TGT) βπͺ Flow Figure8 + Opposites54(1), 95(2), 104, 129(-1), 152, 179, 200(-2), 209(3), 214(1) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 42, 149 β To @(5+2 TGT)
π· @125 (20+17 :CTA) πͺ 33, 66, 75, 90(6), 92(7), 137, 170 β To @(20+24 GAT) <> π΄ High Energy Collision 201 β To @(20+17 CTA)
π° @126 (20+9 :TCA) πͺ 91(8), 118, 188, 208 β To @(20+21 AGT) <> π΄ High Energy Collision 29, 38, 88, 127, 130, 161, 176, 196, 206 β To @(20+9 TCA)
π° @127 (20+9 :TCA) πͺ 91(6), 118, 188, 208(-2) β To @(20+21 AGT) <> π΄ High Energy Collision 29, 38, 88, 126, 130, 161, 176, 196, 206 β To @(20+9 TCA)
π° @129 (5+1 :TCT) βπͺ Flow Figure8 + Opposites32, 40(-1), 42(-1), 81(2), 124(-1), 149, 160(-3), 181, 213 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 95, 209 β To @(5+1 TCT)
π· @130 (20+9 :TCA) πͺ 91, 118, 188(-1), 208(-4) β To @(20+21 AGT) <> π΄ High Energy Collision 38, 88, 126, 127, 161, 176, 196, 206 β To @(20+9 TCA)
π· @131 (3+2 :AAT) π 83(2), 106(4) β To @(3+1 TTA) <> π΄ High Energy Collision 144, 203, 216, 223 β To @(3+2 AAT)
π· @132 (204+1 :GAC) πͺ 55, 78, 105(1), 113, 226(-3) β To @(20+1 CTG) <> π΄π‘βοΈ βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 60, 62, 103, 133, 158, 167, 171, 189, 224 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @137 (20+24 :GAT) πͺ 125, 201 β To @(20+17 CTA) <> π΄ High Energy Collision 66, 75, 90, 92, 170, 233 β To @(20+24 GAT)
π· @138 (20+22 :GTA) πͺ 93(-2), 115(-1), 154 β To @(20+2 CAT) <> π΄ High Energy Collision 111, 225 β To @(20+22 GTA)
π° @140 (5+4 :GTT) βπͺ Flow Figure8 + Opposites43(-2), 141(4), 159(-2), 174, 183, 199(-1), 228, 236 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 41, 116, 177 β To @(5+4 GTT)
π° @141 (203+1 :CAA) πͺ 116, 140(4), 177 β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 51, 159, 199 β To @(203+1, 203+5 CAA, CGG)
π’ @144 (3+2 :AAT) π 83(-1), 106 β To @(3+1 TTA) <> π΄ High Energy Collision 131, 203, 216, 223, 232 β To @(3+2 AAT)
π° @149 (5+2 :TGT) βπͺ Flow Figure8 + Opposites54, 95(-2), 104, 129, 152(-2), 179(-3), 200(-1), 209(5), 214, 237 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 124 β To @(5+2 TGT)
π· @150 (5+5 :TGG) β 168, 172, 175(2), 207(3) β To @(5+6 GTC) <> π΄ High Energy Collision 151, 202, 242 β To @(5+5 TGG)
π· @151 (5+5 :TGG) β 168, 172(-1), 175(2), 207(2) β To @(5+6 GTC) <> π΄ High Energy Collision 150, 202, 242 β To @(5+5 TGG)
π° @152 (20+19 :ACA) πͺ 124, 149(-2) β To @(5+2 TGT) <> π΄ High Energy Collision 54, 104, 179, 200, 214, 237 β To @(20+19 ACA)
π· @154 (20+2 :CAT) πͺ 111, 138, 225, 251 β To @(20+22 GTA) <> π΄ High Energy Collision 93, 115, 245 β To @(20+2 CAT)
π· @155 (203+4 :CCA) πͺ 100, 101, 169, 218(1) β To @(20+25 GGT) <> π΄ High Energy Collision 65, 239, 246 β To @(203+4 CCA)
π’ @157 (5+7 :TCC) πͺ 215, 227(1) β To @(202+1 AGG) <> π΄ High Energy Collision 97 β To @(5+7 TCC)
π· @159 (203+1 :CAA) πͺ 116(2), 140(-2), 177(-1) β To @(5+4 GTT) <> π΄ High Energy Collision 141, 199, 247 β To @(203+1 CAA)
π’ @160 (201+3 :AGA) πͺ 95, 129(-3), 209(4) β To @(5+1 TCT) <> π΄ High Energy Collision 81, 181, 213 β To @(201+3 AGA)
π· @161 (20+9 :TCA) πͺ 91, 118, 188, 208(2), 243(-2) β To @(20+21 AGT) <> π΄ High Energy Collision 88, 126, 127, 130, 176, 196, 206 β To @(20+9 TCA)
π’ @165 (201+1 :AAG) πͺ 219, 221(-1), 229(2) β To @(3+7 TTC) <> π΄ High Energy Collision 94, 114, 215, 227, 263 β To @(201+1, 202+1 AAG, AGG)
π· @166 (20+23 :GTG) πͺ 102, 109(4), 184, 198, 230(4), 248 β To @(20+13 CAC) <> π΄ High Energy Collision 193, 259 β To @(20+23 GTG)
π’ @167 (204+5 :CGC) πͺ 89, 110(7) β To @(204+3 GCG) <> π‘ Medium Energy Guidance 132, 171, 224 β To @(204+1 GAC)
π· @168 (5+6 :GTC) βπͺ Flow Figure8 + Opposites84, 112(4), 117, 150, 151, 202(3), 205(-2), 242(2), 266(3) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 172, 175, 207 β To @(5+6 GTC)
π· @169 (20+25 :GGT) πͺ 155, 239, 246(1) β To @(203+4 CCA) <> π΄ High Energy Collision 100, 101, 218 β To @(20+25 GGT)
π’ @170 (20+24 :GAT) πͺ 125, 201(6), 265(6) β To @(20+17 CTA) <> π΄ High Energy Collision 75, 90, 92, 137, 233 β To @(20+24 GAT)
π’ @171 (204+1 :GAC) πͺ 78, 105(-2), 113(6), 226(-2) β To @(20+1 CTG) <> π΄π‘βοΈ βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 103, 132, 133, 158, 167, 189, 224 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @172 (5+6 :GTC) βπͺ Flow Figure8 + Opposites84, 112(4), 117(3), 150, 151(-1), 202(3), 205(-2), 242(3), 266(3) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 168, 175, 207 β To @(5+6 GTC)
π° @174 (5+3 :TTG) βπͺ Flow Figure8 + Opposites76(1), 116(9), 140, 177, 241(9), 249 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 183, 228, 236, 270 β To @(5+3 TTG)
π· @175 (5+6 :GTC) βπͺ Flow Figure8 + Opposites84, 112, 117(7), 150(2), 151(2), 202(1), 205(-4), 242(8), 266(-1) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 168, 172, 207 β To @(5+6 GTC)
π· @176 (20+9 :TCA) πͺ 91, 118(5), 188, 208(-2), 243(6) β To @(20+21 AGT) <> π΄ High Energy Collision 88, 126, 127, 130, 161, 196, 206, 264 β To @(20+9 TCA)
π° @177 (5+4 :GTT) βπͺ Flow Figure8 + Opposites141, 159(-1), 174, 183, 199(-1), 228, 236(-1), 247(1), 261(-1), 270 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 116, 140 β To @(5+4 GTT)
π’ @179 (20+19 :ACA) πͺ 124, 149(-3) β To @(5+2 TGT) <> π΄ High Energy Collision 104, 152, 200, 214, 237, 260 β To @(20+19 ACA)
π· @181 (201+3 :AGA) πͺ 95, 129, 209 β To @(5+1 TCT) <> π΄ High Energy Collision 160, 213 β To @(201+3 AGA)
π° @183 (5+3 :TTG) βπͺ Flow Figure8 + Opposites116, 140, 177, 241, 249(-3) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 174, 228, 236, 270 β To @(5+3 TTG)
π° @184 (20+13 :CAC) πͺ 166, 193(1), 259 β To @(20+23 GTG) <> π΄ High Energy Collision 102, 109, 198, 230, 248 β To @(20+13 CAC)
π° @185 (20+5 :ATG) πͺ 107(-3), 121(-1), 187(2), 191(2), 253(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 86, 87, 120, 192, 212, 217, 250, 273 β To @(20+5 ATG)
π° @187 (20+8 :TAC) πͺ 120(-2), 185(2), 192(1), 212(-2), 217(-2), 250(-2), 273(-3) β To @(20+5 ATG) <> π΄ High Energy Collision 107, 121, 191, 253 β To @(20+8 TAC)
π° @188 (20+21 :AGT) πͺ 126, 127, 130(-1), 161, 176, 196(-1), 206(-2), 264 β To @(20+9 TCA) <> π΄ High Energy Collision 91, 118, 208, 243 β To @(20+21 AGT)
π° @191 (20+8 :TAC) πͺ 120, 185(2), 192(4), 212(-2), 217(-2), 250, 273(-3) β To @(20+5 ATG) <> π΄ High Energy Collision 107, 121, 187, 253 β To @(20+8 TAC)
π° @192 (20+5 :ATG) πͺ 107(1), 121, 187(1), 191(4), 253 β To @(20+8 TAC) <> π΄ High Energy Collision 120, 185, 212, 217, 250, 273 β To @(20+5 ATG)
π° @193 (20+23 :GTG) πͺ 102, 109(3), 184(1), 198, 230, 248(1) β To @(20+13 CAC) <> π΄ High Energy Collision 166, 259, 285 β To @(20+23 GTG)
π° @196 (20+9 :TCA) πͺ 118, 188(-1), 208(-2), 243 β To @(20+21 AGT) <> π΄ High Energy Collision 126, 127, 130, 161, 176, 206, 264, 293 β To @(20+9 TCA)
π° @198 (20+13 :CAC) πͺ 166, 193, 259(-2), 285(-4) β To @(20+23 GTG) <> π΄ High Energy Collision 102, 109, 184, 230, 248 β To @(20+13 CAC)
π· @199 (203+1 :CAA) πͺ 116(1), 140(-1), 177(-1) β To @(5+4 GTT) <> π΄ High Energy Collision 141, 159, 247, 261, 284 β To @(203+1 CAA)
π’ @200 (20+19 :ACA) πͺ 124(-2), 149(-1) β To @(5+2 TGT) <> π΄ High Energy Collision 104, 152, 179, 214, 237, 260 β To @(20+19 ACA)
π’ @201 (20+17 :CTA) πͺ 137, 170(6), 233(-1) β To @(20+24 GAT) <> π΄ High Energy Collision 125, 265 β To @(20+17 CTA)
π° @202 (5+5 :TGG) β 168(3), 172(3), 175(1), 207, 280(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 150, 151, 242, 266, 275, 282 β To @(5+5 TGG)
π’ @203 (3+2 :AAT) π 106 β To @(3+1 TTA) <> π΄ High Energy Collision 131, 144, 216, 223, 232, 302 β To @(3+2 AAT)
π° @205 (203+2 :CAG) πͺ 168(-2), 172(-2), 175(-4), 207(6), 280 β To @(5+6 GTC) <> π΄ High Energy Collision 112, 117 β To @(203+2 CAG)
π° @206 (20+9 :TCA) πͺ 118, 188(-2), 208(8), 243(2) β To @(20+21 AGT) <> π΄ High Energy Collision 126, 127, 130, 161, 176, 196, 264, 293 β To @(20+9 TCA)
π° @207 (5+6 :GTC) βπͺ Flow Figure8 + Opposites112(-2), 117, 150(3), 151(2), 202, 205(6), 242(2), 266(2), 275, 282 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 168, 172, 175, 280 β To @(5+6 GTC)
π° @208 (20+21 :AGT) πͺ 126, 127(-2), 130(-4), 161(2), 176(-2), 196(-2), 206(8), 264(1), 293(-3) β To @(20+9 TCA) <> π΄ High Energy Collision 118, 188, 243 β To @(20+21 AGT)
π° @209 (5+1 :TCT) βπͺ Flow Figure8 + Opposites124(3), 149(5), 160(4), 181, 213 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 129, 303 β To @(5+1 TCT)
π· @212 (20+5 :ATG) πͺ 121(-2), 187(-2), 191(-2), 253, 307 β To @(20+8 TAC) <> π΄ High Energy Collision 120, 185, 192, 217, 250, 273 β To @(20+5 ATG)
π° @213 (201+3 :AGA) πͺ 129, 209, 303 β To @(5+1 TCT) <> π΄ High Energy Collision 160, 181 β To @(201+3 AGA)
π’ @214 (20+19 :ACA) πͺ 124(1), 149 β To @(5+2 TGT) <> π΄ High Energy Collision 152, 179, 200, 237, 260 β To @(20+19 ACA)
π’ @215 (202+1 :AGG) πͺ 157 β To @(5+7 TCC) <> π΄ High Energy Collision 165, 227, 263, 289 β To @(201+1, 202+1 AAG, AGG)
π· @217 (20+5 :ATG) πͺ 121(-2), 187(-2), 191(-2), 253, 307 β To @(20+8 TAC) <> π΄ High Energy Collision 120, 185, 192, 212, 250, 273 β To @(20+5 ATG)
π· @218 (20+25 :GGT) πͺ 155(1), 239, 246(2) β To @(203+4 CCA) <> π΄ High Energy Collision 169, 277 β To @(20+25 GGT)
π’ @219 (3+7 :TTC) πͺ 165, 289 β To @(201+1 AAG) <> π΄ High Energy Collision 221, 229, 314 β To @(3+7 TTC)
π· @220 (20+15 :CTC) πͺ 234, 244(2), 283, 310 β To @(202+3 GAG) <> π΄ High Energy Collision 122 β To @(20+15 CTC)
π’ @221 (3+7 :TTC) πͺ 165(-1), 289 β To @(201+1 AAG) <> π΄ High Energy Collision 219, 229, 314 β To @(3+7 TTC)
π° @224 (204+1 :GAC) πͺ 226(2), 300(-4) β To @(20+1 CTG) <> π΄π‘βοΈ βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 132, 133, 158, 167, 171, 189, 274, 301, 309, 311 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @225 (20+22 :GTA) πͺ 154, 245, 276(-1), 290(-1), 308(-2) β To @(20+2 CAT) <> π΄ High Energy Collision 138, 251, 268, 299 β To @(20+22 GTA)
π° @226 (20+1 :CTG) πͺ 132(-3), 171(-2), 224(2), 301(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 300 β To @(20+1 CTG)
π’ @227 (202+1 :AGG) πͺ 157(1) β To @(5+7 TCC) <> π΄ High Energy Collision 165, 215, 263, 289 β To @(201+1, 202+1 AAG, AGG)
π· @228 (5+3 :TTG) βπͺ Flow Figure8 + Opposites140, 177, 241, 249(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 174, 183, 236, 270, 306 β To @(5+3 TTG)
π’ @229 (3+7 :TTC) πͺ 165(2), 289(-2), 328 β To @(201+1 AAG) <> π΄ High Energy Collision 219, 221, 314 β To @(3+7 TTC)
π· @230 (20+13 :CAC) πͺ 166(4), 193, 259, 285, 304, 320 β To @(20+23 GTG) <> π΄ High Energy Collision 184, 198, 248 β To @(20+13 CAC)
π’ @233 (20+24 :GAT) πͺ 201(-1), 265 β To @(20+17 CTA) <> π΄ High Energy Collision 137, 170, 313, 315, 326 β To @(20+24 GAT)
π· @234 (202+3 :GAG) πͺ 220 β To @(20+15 CTC) <> π΄ High Energy Collision 142, 145, 147, 162, 164...,254, 269, 283, 310 β To @(202+2, 202+3 GAA, GAG)
π° @236 (5+3 :TTG) βπͺ Flow Figure8 + Opposites140, 177(-1), 241(-1), 249 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 174, 183, 228, 270, 306 β To @(5+3 TTG)
π’ @237 (20+19 :ACA) πͺ 149, 322 β To @(5+2 TGT) <> π΄ High Energy Collision 152, 179, 200, 214, 260 β To @(20+19 ACA)
π· @239 (203+4 :CCA) πͺ 169, 218, 277 β To @(20+25 GGT) <> π΄ High Energy Collision 155, 246, 327 β To @(203+4 CCA)
π° @241 (201+2 :AAC) πͺ 174(9), 183, 228, 236(-1), 270(-2), 306 β To @(5+3 TTG) <> π΄ High Energy Collision 249 β To @(201+2 AAC)
π’ @242 (5+5 :TGG) β 168(2), 172(3), 175(8), 207(2), 280(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 150, 151, 202, 266, 275, 282 β To @(5+5 TGG)
π· @243 (20+21 :AGT) πͺ 161(-2), 176(6), 196, 206(2), 264(-1), 293 β To @(20+9 TCA) <> π΄ High Energy Collision 188, 208 β To @(20+21 AGT)
π· @244 (202+3 :GAG) πͺ 220(2) β To @(20+15 CTC) <> π΄ High Energy Collision 145, 147, 162, 164, 180...,334, 336, 337, 338 β To @(202+2, 202+3 GAA, GAG)
π° @245 (20+2 :CAT) πͺ 225, 251, 268(-2), 299 β To @(20+22 GTA) <> π΄ High Energy Collision 154, 276, 290, 308 β To @(20+2 CAT)
π· @246 (203+4 :CCA) πͺ 169(1), 218(2), 277(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 155, 239, 327 β To @(203+4 CCA)
π’ @247 (203+1 :CAA) πͺ 177(1) β To @(5+4 GTT) <> π΄ High Energy Collision 159, 199, 261, 284, 305 β To @(203+1 CAA)
π· @248 (20+13 :CAC) πͺ 166, 193(1), 259(-1), 285(-2), 304(1), 320(-1) β To @(20+23 GTG) <> π΄ High Energy Collision 184, 198, 230 β To @(20+13 CAC)
π· @249 (201+2 :AAC) πͺ 174, 183(-3), 228(-1), 236, 270, 306(8) β To @(5+3 TTG) <> π΄ High Energy Collision 241 β To @(201+2 AAC)
π° @250 (20+5 :ATG) πͺ 187(-2), 191, 253, 307(9) β To @(20+8 TAC) <> π΄ High Energy Collision 185, 192, 212, 217, 273, 321, 331, 340 β To @(20+5 ATG)
π° @251 (20+22 :GTA) πͺ 154, 245, 276(1), 290(-3), 308(5) β To @(20+2 CAT) <> π΄ High Energy Collision 225, 268, 299 β To @(20+22 GTA)
π° @253 (20+8 :TAC) πͺ 185(-1), 192, 212, 217, 250, 273, 321, 331, 340(-3) β To @(20+5 ATG) <> π΄ High Energy Collision 187, 191, 307 β To @(20+8 TAC)
π· @257 (20+4 :GCT) πͺ 267, 272, 287, 295(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 343, 352 β To @(20+4 GCT)
π· @259 (20+23 :GTG) πͺ 184, 198(-2), 230, 248(-1), 356(-3) β To @(20+13 CAC) <> π΄ High Energy Collision 166, 193, 285, 304, 320, 357 β To @(20+23 GTG)
π’ @260 (20+19 :ACA) πͺ 322(-1) β To @(5+2 TGT) <> π΄ High Energy Collision 179, 200, 214, 237, 344, 350 β To @(20+19 ACA)
π’ @261 (203+1 :CAA) πͺ 177(-1) β To @(5+4 GTT) <> π΄ High Energy Collision 199, 247, 284, 305, 355 β To @(203+1 CAA)
π· @264 (20+9 :TCA) πͺ 188, 208(1), 243(-1) β To @(20+21 AGT) <> π΄ High Energy Collision 176, 196, 206, 293 β To @(20+9 TCA)
π’ @265 (20+17 :CTA) πͺ 170(6), 233, 313, 315, 326, 333 β To @(20+24 GAT) <> π΄ High Energy Collision 201 β To @(20+17 CTA)
π· @266 (5+5 :TGG) β 168(3), 172(3), 175(-1), 207(2), 280(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 202, 242, 275, 282, 362 β To @(5+5 TGG)
π· @267 (203+3 :CGA) πͺ 257, 343, 352 β To @(20+4 GCT) <> π΄ High Energy Collision 272, 287, 295 β To @(203+3 CGA)
π° @268 (20+22 :GTA) πͺ 245(-2), 276(-1), 290, 308(-1) β To @(20+2 CAT) <> π΄ High Energy Collision 225, 251, 299 β To @(20+22 GTA)
π· @270 (5+3 :TTG) βπͺ Flow Figure8 + Opposites177, 241(-2), 249 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 174, 183, 228, 236, 306, 363 β To @(5+3 TTG)
π· @272 (203+3 :CGA) πͺ 257, 343, 352(-1) β To @(20+4 GCT) <> π΄ High Energy Collision 267, 287, 295 β To @(203+3 CGA)
π· @273 (20+5 :ATG) πͺ 187(-3), 191(-3), 253, 307(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 185, 192, 212, 217, 250, 321, 331, 340 β To @(20+5 ATG)
π° @275 (5+5 :TGG) β 207, 280(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 202, 242, 266, 282, 362 β To @(5+5 TGG)
π° @276 (20+2 :CAT) πͺ 225(-1), 251(1), 268(-1), 299 β To @(20+22 GTA) <> π΄ High Energy Collision 245, 290, 308 β To @(20+2 CAT)
π’ @277 (20+25 :GGT) πͺ 239, 246(-2), 327 β To @(203+4 CCA) <> π΄ High Energy Collision 218 β To @(20+25 GGT)
π° @280 (5+6 :GTC) βπͺ Flow Figure8 + Opposites202(-2), 205, 242(-2), 266(-2), 275(-2), 282(2), 323, 330, 360, 362(-2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 207 β To @(5+6 GTC)
π° @282 (5+5 :TGG) β 207, 280(2) β To @(5+6 GTC) <> π΄ High Energy Collision 202, 242, 266, 275, 362 β To @(5+5 TGG)
π’ @283 (202+3 :GAG) πͺ 220, 361(2) β To @(20+15 CTC) <> π΄ High Energy Collision 234, 240, 244, 254, 269...,349, 369, 379, 380 β To @(202+2, 202+3 GAA, GAG)
π’ @284 (203+1 :CAA) πͺ 370(-2) β To @(5+4 GTT) <> π΄ High Energy Collision 199, 247, 261, 305, 355, 366 β To @(203+1 CAA)
π’ @285 (20+23 :GTG) πͺ 198(-4), 230, 248(-2), 356(-4) β To @(20+13 CAC) <> π΄ High Energy Collision 193, 259, 304, 320, 357, 378 β To @(20+23 GTG)
π’ @287 (203+3 :CGA) πͺ 257, 343(-1), 352(-2), 385 β To @(20+4 GCT) <> π΄ High Energy Collision 267, 272, 295 β To @(203+3 CGA)
π· @289 (201+1 :AAG) πͺ 219, 221, 229(-2), 314 β To @(3+7 TTC) <> π΄ High Energy Collision 215, 227, 263, 328, 329, 372, 377, 381 β To @(201+1, 202+1 AAG, AGG)
π° @290 (20+2 :CAT) πͺ 225(-1), 251(-3), 268, 299 β To @(20+22 GTA) <> π΄ High Energy Collision 245, 276, 308 β To @(20+2 CAT)
π’ @293 (20+9 :TCA) πͺ 208(-3), 243 β To @(20+21 AGT) <> π΄ High Energy Collision 196, 206, 264 β To @(20+9 TCA)
π’ @295 (203+3 :CGA) πͺ 257(-1), 343(-1), 352, 385 β To @(20+4 GCT) <> π΄ High Energy Collision 267, 272, 287 β To @(203+3 CGA)
π° @299 (20+22 :GTA) πͺ 245, 276, 290, 308(-1) β To @(20+2 CAT) <> π΄ High Energy Collision 225, 251, 268 β To @(20+22 GTA)
π° @300 (20+1 :CTG) πͺ 224(-4), 301(4), 393(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 226, 332, 386 β To @(20+1 CTG)
π° @301 (204+1 :GAC) πͺ 226(-2), 300(4), 332(-2), 386(-4) β To @(20+1 CTG) <> π΄βοΈ βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 224, 274, 309, 311, 325...,373, 382, 387, 393 β To @(204+1, 205+1 AAA, GAC)
π’ @302 (3+2 :AAT) π 401 β To @(3+1 TTA) <> π΄ High Energy Collision 203, 216, 223, 232, 324, 342, 351 β To @(3+2 AAT)
π· @303 (5+1 :TCT) βπͺ Flow Figure8 + Opposites213, 322(-2), 346, 394(1) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 209 β To @(5+1 TCT)
π’ @304 (20+23 :GTG) πͺ 230, 248(1), 356(-4), 390 β To @(20+13 CAC) <> π΄ High Energy Collision 259, 285, 320, 357, 378 β To @(20+23 GTG)
π’ @305 (203+1 :CAA) πͺ 370, 384 β To @(5+4 GTT) <> π΄ High Energy Collision 247, 261, 284, 355, 366 β To @(203+1 CAA)
π’ @306 (5+3 :TTG) βπͺ Flow Figure8 + Opposites241, 249(8), 370, 384 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 228, 236, 270, 363 β To @(5+3 TTG)
π· @307 (20+8 :TAC) πͺ 212, 217, 250(9), 273(-1), 321, 331, 340, 391(2), 399 β To @(20+5 ATG) <> π΄ High Energy Collision 253, 395 β To @(20+8 TAC)
π° @308 (20+2 :CAT) πͺ 225(-2), 251(5), 268(-1), 299(-1) β To @(20+22 GTA) <> π΄ High Energy Collision 245, 276, 290 β To @(20+2 CAT)
π’ @310 (202+3 :GAG) πͺ 220, 361 β To @(20+15 CTC) <> π΄ High Energy Collision 234, 240, 244, 254, 269...,380, 402, 403, 404 β To @(202+2, 202+3 GAA, GAG)
π’ @313 (20+24 :GAT) πͺ 265 β To @(20+17 CTA) <> π΄ High Energy Collision 233, 315, 326, 333, 388, 392 β To @(20+24 GAT)
π· @314 (3+7 :TTC) πͺ 289, 328(-2), 329, 372, 377, 381 β To @(201+1 AAG) <> π΄ High Energy Collision 219, 221, 229, 397 β To @(3+7 TTC)
π’ @315 (20+24 :GAT) πͺ 265 β To @(20+17 CTA) <> π΄ High Energy Collision 233, 313, 326, 333, 388, 392 β To @(20+24 GAT)
π’ @320 (20+23 :GTG) πͺ 230, 248(-1), 356(-2), 390(-2) β To @(20+13 CAC) <> π΄ High Energy Collision 259, 285, 304, 357, 378 β To @(20+23 GTG)
π· @321 (20+5 :ATG) πͺ 253, 307, 395(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 250, 273, 331, 340, 391, 399 β To @(20+5 ATG)
π· @322 (5+2 :TGT) βπͺ Flow Figure8 + Opposites237, 260(-1), 303(-2), 344, 350(-1), 367, 371 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 394, 414 β To @(5+2 TGT)
π’ @323 (203+2 :CAG) πͺ 280, 410 β To @(5+6 GTC) <> π΄ High Energy Collision 330, 360 β To @(203+2 CAG)
π’ @324 (3+2 :AAT) π 401 β To @(3+1 TTA) <> π΄ High Energy Collision 232, 302, 342, 351, 419 β To @(3+2 AAT)
π’ @326 (20+24 :GAT) πͺ 265 β To @(20+17 CTA) <> π΄ High Energy Collision 233, 313, 315, 333, 388, 392 β To @(20+24 GAT)
π’ @327 (203+4 :CCA) πͺ 277, 389(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 239, 246 β To @(203+4 CCA)
π· @328 (201+1 :AAG) πͺ 229, 314(-2), 397, 421 β To @(3+7 TTC) <> π΄ High Energy Collision 263, 289, 329, 372, 377, 381, 412 β To @(201+1, 202+1 AAG, AGG)
π· @329 (201+1 :AAG) πͺ 314, 397(2), 421 β To @(3+7 TTC) <> π΄ High Energy Collision 263, 289, 328, 372, 377, 381, 412 β To @(201+1, 202+1 AAG, AGG)
π’ @330 (203+2 :CAG) πͺ 280, 410(-1) β To @(5+6 GTC) <> π΄ High Energy Collision 323, 360 β To @(203+2 CAG)
π· @331 (20+5 :ATG) πͺ 253, 307, 395(6) β To @(20+8 TAC) <> π΄ High Energy Collision 250, 273, 321, 340, 391, 399 β To @(20+5 ATG)
π’ @332 (20+1 :CTG) πͺ 301(-2), 393 β To @(204+1 GAC) <> π΄ High Energy Collision 300, 386 β To @(20+1 CTG)
π’ @333 (20+24 :GAT) πͺ 265 β To @(20+17 CTA) <> π΄ High Energy Collision 313, 315, 326, 388, 392, 426 β To @(20+24 GAT)
π· @334 (202+3 :GAG) πͺ 361, 418(-1) β To @(20+15 CTC) <> π΄ High Energy Collision 240, 244, 254, 269, 283...,402, 403, 404, 431 β To @(202+2, 202+3 GAA, GAG)
π· @336 (202+3 :GAG) πͺ 361, 418(-1) β To @(20+15 CTC) <> π΄ High Energy Collision 240, 244, 254, 269, 283...,402, 403, 404, 431 β To @(202+2, 202+3 GAA, GAG)
π’ @340 (20+5 :ATG) πͺ 253(-3), 307, 395 β To @(20+8 TAC) <> π΄ High Energy Collision 250, 273, 321, 331, 391, 399 β To @(20+5 ATG)
π’ @342 (3+2 :AAT) π 401(-2) β To @(3+1 TTA) <> π΄ High Energy Collision 302, 324, 351, 419 β To @(3+2 AAT)
π’ @343 (20+4 :GCT) πͺ 267, 272, 287(-1), 295(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 257, 352, 385, 400, 408 β To @(20+4 GCT)
π· @344 (20+19 :ACA) πͺ 322, 394, 414 β To @(5+2 TGT) <> π΄ High Energy Collision 260, 350, 367, 371, 439 β To @(20+19 ACA)
π’ @346 (201+3 :AGA) πͺ 303 β To @(5+1 TCT) <> π΄ High Energy Collision 409, 440 β To @(201+3 AGA)
π· @349 (202+3 :GAG) πͺ 361, 418(-1), 443(-3) β To @(20+15 CTC) <> π΄ High Energy Collision 254, 269, 283, 310, 334...,403, 404, 431, 445 β To @(202+2, 202+3 GAA, GAG)
π· @350 (20+19 :ACA) πͺ 322(-1), 394, 414 β To @(5+2 TGT) <> π΄ High Energy Collision 260, 344, 367, 371, 439 β To @(20+19 ACA)
π’ @351 (3+2 :AAT) π 401(-3), 447 β To @(3+1 TTA) <> π΄ High Energy Collision 302, 324, 342, 419, 444 β To @(3+2 AAT)
π’ @352 (20+4 :GCT) πͺ 267, 272(-1), 287(-2), 295 β To @(203+3 CGA) <> π΄ High Energy Collision 257, 343, 385, 400, 408 β To @(20+4 GCT)
π· @355 (203+1 :CAA) πͺ 370, 384, 417, 446 β To @(5+4 GTT) <> π΄ High Energy Collision 261, 284, 305, 366, 429, 434 β To @(203+1 CAA)
π° @356 (20+13 :CAC) πͺ 259(-3), 285(-4), 304(-4), 320(-2), 357(4), 378(-2) β To @(20+23 GTG) <> π΄ High Energy Collision 390 β To @(20+13 CAC)
π° @357 (20+23 :GTG) πͺ 356(4), 390(-2) β To @(20+13 CAC) <> π΄ High Energy Collision 259, 285, 304, 320, 378 β To @(20+23 GTG)
π’ @360 (203+2 :CAG) πͺ 280, 410, 441(-1) β To @(5+6 GTC) <> π΄ High Energy Collision 323, 330 β To @(203+2 CAG)
π· @361 (20+15 :CTC) πͺ 283(2), 310, 334, 336, 349, 380 β To @(202+3 GAG) <> π΄ High Energy Collision 418, 443, 453 β To @(20+15 CTC)
π’ @362 (5+5 :TGG) β 280(-2), 410(2), 441(-1) β To @(5+6 GTC) <> π΄ High Energy Collision 266, 275, 282, 438 β To @(5+5 TGG)
π° @363 (5+3 :TTG) βπͺ Flow Figure8 + Opposites370, 384, 417(-1), 433, 446 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 270, 306, 422, 428, 449 β To @(5+3 TTG)
π’ @364 (5+7 :TCC) πͺ 412(2) β To @(202+1 AGG) <> π΄ High Energy Collision 405 β To @(5+7 TCC)
π° @366 (203+1 :CAA) πͺ 370(-2), 384, 417(2), 446 β To @(5+4 GTT) <> π΄ High Energy Collision 284, 305, 355, 429, 434, 459, 464 β To @(203+1 CAA)
π· @367 (20+19 :ACA) πͺ 322, 394(-1), 414(1) β To @(5+2 TGT) <> π΄ High Energy Collision 344, 350, 371, 439 β To @(20+19 ACA)
π° @370 (5+4 :GTT) βπͺ Flow Figure8 + Opposites284(-2), 305, 306, 355, 363, 366(-2), 422(3), 428, 429(-1), 434, 449(-1), 459, 464(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 384, 417, 446 β To @(5+4 GTT)
π· @371 (20+19 :ACA) πͺ 322, 394(-1), 414(-2) β To @(5+2 TGT) <> π΄ High Energy Collision 344, 350, 367, 439 β To @(20+19 ACA)
π· @372 (201+1 :AAG) πͺ 314, 397(2), 421 β To @(3+7 TTC) <> π΄ High Energy Collision 289, 328, 329, 377, 381, 412 β To @(201+1, 202+1 AAG, AGG)
π· @377 (201+1 :AAG) πͺ 314, 397, 421 β To @(3+7 TTC) <> π΄ High Energy Collision 289, 328, 329, 372, 381, 412 β To @(201+1, 202+1 AAG, AGG)
π· @378 (20+23 :GTG) πͺ 356(-2), 390, 472 β To @(20+13 CAC) <> π΄ High Energy Collision 285, 304, 320, 357 β To @(20+23 GTG)
π· @380 (202+3 :GAG) πͺ 361, 418, 443(-3), 453(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 283, 310, 334, 336, 337...,455, 463, 467, 468 β To @(202+2, 202+3 GAA, GAG)
π· @381 (201+1 :AAG) πͺ 314, 397, 421(-1) β To @(3+7 TTC) <> π΄ High Energy Collision 289, 328, 329, 372, 377, 412 β To @(201+1, 202+1 AAG, AGG)
π’ @383 (204+2 :GCA) πͺ 477 β To @(20+16 CGT) <> π΄ High Energy Collision 318, 427, 458 β To @(204+2 GCA)
π· @384 (5+4 :GTT) βπͺ Flow Figure8 + Opposites305, 306, 355, 363, 366, 422(1), 428(-2), 429(-1), 434, 449(-1), 459(-2), 464(2), 473(-1), 480(2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 370, 417, 446 β To @(5+4 GTT)
π’ @385 (20+4 :GCT) πͺ 287, 295 β To @(203+3 CGA) <> π΄ High Energy Collision 343, 352, 400, 408, 475 β To @(20+4 GCT)
π° @386 (20+1 :CTG) πͺ 301(-4), 393(-3), 465(1) β To @(204+1 GAC) <> π΄ High Energy Collision 300, 332 β To @(20+1 CTG)
π’ @389 (20+25 :GGT) πͺ 327(-2), 460(-1) β To @(203+4 CCA)
π· @390 (20+13 :CAC) πͺ 304, 320(-2), 357(-2), 378 β To @(20+23 GTG) <> π΄ High Energy Collision 356, 472 β To @(20+13 CAC)
π° @391 (20+5 :ATG) πͺ 307(2), 395, 456 β To @(20+8 TAC) <> π΄ High Energy Collision 321, 331, 340, 399, 450 β To @(20+5 ATG)
π° @393 (204+1 :GAC) πͺ 300(-2), 332, 386(-3) β To @(20+1 CTG) <> π΄βοΈ βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 301, 309, 311, 325, 335...,423, 448, 465, 469 β To @(204+1, 205+1 AAA, GAC)
π· @394 (5+2 :TGT) βπͺ Flow Figure8 + Opposites303(1), 344, 350, 367(-1), 371(-1), 439 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 322, 414 β To @(5+2 TGT)
π° @395 (20+8 :TAC) πͺ 321(-2), 331(6), 340, 391, 399, 450, 491 β To @(20+5 ATG) <> π΄ High Energy Collision 307, 456 β To @(20+8 TAC)
π· @397 (3+7 :TTC) πͺ 328, 329(2), 372(2), 377, 381 β To @(201+1 AAG) <> π΄ High Energy Collision 314, 421, 483 β To @(3+7 TTC)
π° @399 (20+5 :ATG) πͺ 307, 395, 456(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 321, 331, 340, 391, 450, 491 β To @(20+5 ATG)
π· @401 (3+1 :TTA) π 302, 324, 342(-2), 351(-3), 419, 444(-3), 461(-1), 471, 490(-1) β To @(3+2 AAT) <> π΄ High Energy Collision 447 β To @(3+1 TTA)
π° @405 (5+7 :TCC) πͺ 412(-2) β To @(202+1 AGG) <> π΄ High Energy Collision 364 β To @(5+7 TCC)
π’ @407 (20+9 :TCA) πͺ 478 β To @(20+21 AGT) <> π΄ High Energy Collision 415, 435 β To @(20+9 TCA)
π’ @409 (201+3 :AGA) πͺ 500 β To @(5+1 TCT) <> π΄ High Energy Collision 346, 440, 474 β To @(201+3 AGA)
π· @410 (5+6 :GTC) βπͺ Flow Figure8 + Opposites323, 330(-1), 360, 362(2), 438(-1), 470 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 441 β To @(5+6 GTC)
π° @412 (202+1 :AGG) πͺ 364(2), 405(-2) β To @(5+7 TCC) <> π΄ High Energy Collision 328, 329, 372, 377, 381 β To @(201+1 AAG)
π· @414 (5+2 :TGT) βπͺ Flow Figure8 + Opposites344, 350, 367(1), 371(-2), 439, 500(-1) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 322, 394 β To @(5+2 TGT)
π’ @415 (20+9 :TCA) πͺ 478(2) β To @(20+21 AGT) <> π΄ High Energy Collision 407, 435 β To @(20+9 TCA)
π° @417 (5+4 :GTT) βπͺ Flow Figure8 + Opposites355, 363(-1), 366(2), 422, 428, 429, 434(-1), 449(2), 459, 464(4), 473, 480(2), 484, 501(5) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 370, 384, 446, 488 β To @(5+4 GTT)
π’ @418 (20+15 :CTC) πͺ 334(-1), 336(-1), 349(-1), 380, 463(3), 467(2), 468(-1), 503(3), 515 β To @(202+3 GAG) <> π΄ High Energy Collision 361, 443, 453 β To @(20+15 CTC)
π· @419 (3+2 :AAT) π 401, 447(-1), 511 β To @(3+1 TTA) <> π΄ High Energy Collision 324, 342, 351, 444, 461, 471, 490 β To @(3+2 AAT)
π’ @421 (3+7 :TTC) πͺπ Opposites + Structural Lock Key328, 329, 372, 377, 381(-1), 506(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 397, 483, 499, 508 β To @(3+7 TTC)
π° @422 (5+3 :TTG) βπͺ Flow Figure8 + Opposites370(3), 384(1), 417, 433(-1), 446(1), 488(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 363, 428, 449, 473 β To @(5+3 TTG)
π’ @424 (202+4 :GGA) πͺ 506(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 339, 341, 348, 374, 376, 432, 487, 510, 513 β To @(202+4 GGA)
π’ @427 (204+2 :GCA) πͺ 477 β To @(20+16 CGT) <> π΄ High Energy Collision 383, 458 β To @(204+2 GCA)
π° @428 (5+3 :TTG) βπͺ Flow Figure8 + Opposites370, 384(-2), 417, 433(-2), 446, 488(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 363, 422, 449, 473 β To @(5+3 TTG)
π· @429 (203+1 :CAA) πͺ 370(-1), 384(-1), 417, 446(-1), 488(-2) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 355, 366, 434, 459, 464, 479, 480, 484, 501 β To @(203+1, 203+5 CAA, CGG)
π’ @432 (202+4 :GGA) πͺ 506(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 339, 341, 348, 374, 376, 424, 487, 510, 513 β To @(202+4 GGA)
π° @433 (201+2 :AAC) πͺ 363, 422(-1), 428(-2), 449(2), 473, 530 β To @(5+3 TTG)
π· @434 (203+1 :CAA) πͺ 370, 384, 417(-1), 446, 488(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 355, 366, 429, 459, 464, 479, 480, 484, 501 β To @(203+1, 203+5 CAA, CGG)
π’ @435 (20+9 :TCA) πͺ 478(-3) β To @(20+21 AGT) <> π΄ High Energy Collision 407, 415 β To @(20+9 TCA)
π° @438 (5+5 :TGG) β 410(-1), 441(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 362, 520 β To @(5+5 TGG)
π· @439 (20+19 :ACA) πͺ 394, 414 β To @(5+2 TGT) <> π΄ High Energy Collision 344, 350, 367, 371 β To @(20+19 ACA)
π’ @440 (201+3 :AGA) πͺ 500, 524(3) β To @(5+1 TCT) <> π΄ High Energy Collision 346, 409, 474 β To @(201+3 AGA)
π° @441 (5+6 :GTC) βπͺ Flow Figure8 + Opposites360(-1), 362(-1), 438(-2), 470(3), 520(3), 522(6) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 410 β To @(5+6 GTC)
π· @443 (20+15 :CTC) πͺ 349(-3), 380(-3), 463(-5), 467(-3), 468(-1), 503(-2), 515(-3), 521(4) β To @(202+3 GAG) <> π΄ High Energy Collision 361, 418, 453 β To @(20+15 CTC)
π° @444 (3+2 :AAT) π 401(-3), 447(2), 511 β To @(3+1 TTA) <> π΄ High Energy Collision 351, 419, 461, 471, 490, 538, 541 β To @(3+2 AAT)
π° @446 (5+4 :GTT) βπͺ Flow Figure8 + Opposites355, 363, 366, 422(1), 428, 429(-1), 434, 449(1), 459(3), 464(1), 473(3), 480, 484(-3), 501, 530, 544(2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 370, 384, 417, 488 β To @(5+4 GTT)
π° @447 (3+1 :TTA) π 351, 419(-1), 444(2), 461(3), 471(2), 490(1), 538, 541 β To @(3+2 AAT) <> π΄ High Energy Collision 401, 511 β To @(3+1 TTA)
π° @449 (5+3 :TTG) βπͺ Flow Figure8 + Opposites370(-1), 384(-1), 417(2), 433(2), 446(1), 488(2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 363, 422, 428, 473, 530 β To @(5+3 TTG)
π° @450 (20+5 :ATG) πͺ 395, 456(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 391, 399, 491, 502, 534 β To @(20+5 ATG)
π· @453 (20+15 :CTC) πͺ 380(-6), 463(-6), 467(-6), 468(-6), 503(-4), 515(-6), 521(-4) β To @(202+3 GAG) <> π΄ High Energy Collision 361, 418, 443 β To @(20+15 CTC)
π° @456 (20+8 :TAC) πͺ 391, 399(-2), 450(-2), 491(-1), 502, 534(-1) β To @(20+5 ATG) <> π΄ High Energy Collision 395 β To @(20+8 TAC)
π· @458 (204+2 :GCA) πͺ 477(-1) β To @(20+16 CGT) <> π΄ High Energy Collision 383, 427 β To @(204+2 GCA)
π· @459 (203+1 :CAA) πͺ 370, 384(-2), 417, 446(3), 488 β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 366, 429, 434, 464, 479, 480, 484, 501, 544 β To @(203+1, 203+5 CAA, CGG)
π’ @460 (203+4 :CCA) πͺ 389(-1) β To @(20+25 GGT)
π· @461 (3+2 :AAT) π 401(-1), 447(3), 511, 558 β To @(3+1 TTA) <> π΄ High Energy Collision 419, 444, 471, 490, 538, 541 β To @(3+2 AAT)
π· @463 (202+3 :GAG) πͺ 418(3), 443(-5), 453(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 369, 379, 380, 402, 403...,503, 514, 515, 521 β To @(202+2, 202+3 GAA, GAG)
π· @464 (203+1 :CAA) πͺ 370(-2), 384(2), 417(4), 446(1), 488(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 366, 429, 434, 459, 479, 480, 484, 501, 544, 562 β To @(203+1, 203+5 CAA, CGG)
π’ @465 (204+1 :GAC) πͺ 386(1), 527, 551 β To @(20+1 CTG) <> π΄βοΈ βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 373, 382, 387, 393, 406...,494, 497, 498, 519 β To @(204+1, 205+1 AAA, GAC)
π· @467 (202+3 :GAG) πͺ 418(2), 443(-3), 453(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 369, 379, 380, 402, 403...,514, 515, 521, 565 β To @(202+2, 202+3 GAA, GAG)
π· @468 (202+3 :GAG) πͺ 418(-1), 443(-1), 453(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 369, 379, 380, 402, 403...,514, 515, 521, 565 β To @(202+2, 202+3 GAA, GAG)
π· @470 (203+2 :CAG) πͺ 410, 441(3) β To @(5+6 GTC) <> π΄ High Energy Collision 522, 549 β To @(203+2 CAG)
π· @471 (3+2 :AAT) π 401, 447(2), 511, 558(2) β To @(3+1 TTA) <> π΄ High Energy Collision 419, 444, 461, 490, 538, 541 β To @(3+2 AAT)
π’ @472 (20+13 :CAC) πͺ 378, 518 β To @(20+23 GTG) <> π΄ High Energy Collision 390 β To @(20+13 CAC)
π· @473 (5+3 :TTG) βπͺ Flow Figure8 + Opposites384(-1), 417, 433, 446(3), 488, 560(2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 422, 428, 449, 530, 554 β To @(5+3 TTG)
π· @474 (201+3 :AGA) πͺ 500, 524 β To @(5+1 TCT) <> π΄ High Energy Collision 409, 440, 550, 557 β To @(201+3 AGA)
π· @477 (20+16 :CGT) πͺ 383, 427, 458(-1) β To @(204+2 GCA)
π’ @478 (20+21 :AGT) πͺ 407, 415(2), 435(-3), 547, 563(-3) β To @(20+9 TCA)
π° @480 (203+1 :CAA) πͺ 384(2), 417(2), 446, 488(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 429, 434, 459, 464, 479, 484, 501, 544, 562 β To @(203+1, 203+5 CAA, CGG)
π· @483 (3+7 :TTC) πͺπ Opposites + Structural Lock Key506(-5), 536 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 397, 421, 499, 508, 555 β To @(3+7 TTC)
π° @484 (203+1 :CAA) πͺ 417, 446(-3), 488(-2) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 429, 434, 459, 464, 479, 480, 501, 544, 562 β To @(203+1, 203+5 CAA, CGG)
π· @487 (202+4 :GGA) πͺ 506(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 424, 432, 510, 513, 537, 556, 566 β To @(202+4 GGA)
π° @488 (5+4 :GTT) βπͺ Flow Figure8 + Opposites422(-1), 428(-1), 429(-2), 434(-1), 449(2), 459, 464(-1), 473, 480(-1), 484(-2), 501, 530(-2), 544, 554(-1), 562, 582(-1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 417, 446 β To @(5+4 GTT)
π· @490 (3+2 :AAT) π 401(-1), 447(1), 511, 558 β To @(3+1 TTA) <> π΄ High Energy Collision 419, 444, 461, 471, 538, 541, 583 β To @(3+2 AAT)
π’ @491 (20+5 :ATG) πͺ 395, 456(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 399, 450, 502, 534, 584 β To @(20+5 ATG)
π’ @494 (204+1 :GAC) πͺ 527(-2), 551, 571 β To @(20+1 CTG) <> π΄βοΈ βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 406, 413, 420, 423, 448, 465, 469, 497, 498, 519 β To @(204+1, 205+1 AAA, GAC)
π’ @497 (204+1 :GAC) πͺ 527, 551, 571 β To @(20+1 CTG) <> π΄βοΈ βοΈ High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 406, 413, 420, 423, 448, 465, 469, 494, 498, 519 β To @(204+1, 205+1 AAA, GAC)
π° @499 (3+7 :TTC) πͺπ Opposites + Structural Lock Key506(-2), 536 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 421, 483, 508, 555 β To @(3+7 TTC)
π· @500 (5+1 :TCT) βπͺ Flow Figure8 + Opposites409, 414(-1), 440, 474, 542(-1), 550(2), 557(-1), 573(1) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 524, 578, 592, 595 β To @(5+1 TCT)
π· @501 (203+1 :CAA) πͺ 417(5), 446, 488 β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 429, 434, 459, 464, 479, 480, 484, 544, 562 β To @(203+1, 203+5 CAA, CGG)
π’ @502 (20+5 :ATG) πͺ 456 β To @(20+8 TAC) <> π΄ High Energy Collision 450, 491, 534, 584 β To @(20+5 ATG)
π’ @503 (202+3 :GAG) πͺ 418(3), 443(-2), 453(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 404, 431, 445, 451, 455...,577, 580, 587, 598 β To @(202+2, 202+3 GAA, GAG)
π° @506 (3+8 :CCT) πͺπ Opposites + Structural Lock Key421(-2), 424(-1), 432(-1), 483(-5), 487(-1), 499(-2), 508(2), 510, 513, 537(3), 555(-2), 556(-1), 566(-1), 601(-1) β To @(202+4, 3+7 GGA, TTC)
π° @508 (3+7 :TTC) πͺπ Opposites + Structural Lock Key506(2), 536(2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 421, 483, 499, 555 β To @(3+7 TTC)
π’ @509 (20+4 :GCT) πͺ 591 β To @(203+3 CGA) <> π΄ High Energy Collision 475, 532, 533, 548, 581 β To @(20+4 GCT)
π° @510 (202+4 :GGA) πͺ 506 β To @(3+8 CCT) <> π΄ High Energy Collision 424, 432, 487, 513, 537, 556, 566, 601 β To @(202+4 GGA)
π· @511 (3+1 :TTA) π 419, 444, 461, 471, 490, 538(-2), 541, 583 β To @(3+2 AAT) <> π΄ High Energy Collision 447, 558, 597, 607 β To @(3+1 TTA)
π° @513 (202+4 :GGA) πͺ 506 β To @(3+8 CCT) <> π΄ High Energy Collision 424, 432, 487, 510, 537, 556, 566, 601 β To @(202+4 GGA)
π’ @515 (202+3 :GAG) πͺ 418, 443(-3), 453(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 431, 445, 451, 455, 463...,577, 580, 587, 598 β To @(202+2, 202+3 GAA, GAG)
π· @517 (20+2 :CAT) πͺ 531, 570, 600(-1) β To @(20+22 GTA) <> π΄ High Energy Collision 539 β To @(20+2 CAT)
π’ @518 (20+23 :GTG) πͺ 472, 589 β To @(20+13 CAC) <> π΄ High Energy Collision 574, 606, 609 β To @(20+23 GTG)
π’ @520 (5+5 :TGG) β 441(3), 593 β To @(5+6 GTC) <> π΄ High Energy Collision 438, 553 β To @(5+5 TGG)
π’ @521 (202+3 :GAG) πͺ 443(4), 453(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 431, 445, 451, 455, 463...,580, 587, 598, 615 β To @(202+2, 202+3 GAA, GAG)
π’ @522 (203+2 :CAG) πͺ 441(6), 593(-1), 621(3) β To @(5+6 GTC) <> π΄ High Energy Collision 470, 549 β To @(203+2 CAG)
π· @524 (5+1 :TCT) βπͺ Flow Figure8 + Opposites440(3), 474, 542, 550(-1), 557, 573(-1), 602, 622(3) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 500, 578, 592, 595 β To @(5+1 TCT)
π’ @527 (20+1 :CTG) πͺ 465, 494(-2), 497 β To @(204+1 GAC) <> π΄ High Energy Collision 551, 571, 610 β To @(20+1 CTG)
π’ @530 (5+3 :TTG) βπͺ Flow Figure8 + Opposites433, 446, 488(-2), 560, 586, 617, 626 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 449, 473, 554, 582, 596, 613 β To @(5+3 TTG)
π° @531 (20+22 :GTA) πͺ 517, 539 β To @(20+2 CAT) <> π΄ High Energy Collision 570, 600 β To @(20+22 GTA)
π’ @532 (20+4 :GCT) πͺ 591 β To @(203+3 CGA) <> π΄ High Energy Collision 475, 509, 533, 548, 581, 620 β To @(20+4 GCT)
π’ @533 (20+4 :GCT) πͺ 591(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 475, 509, 532, 548, 581, 620 β To @(20+4 GCT)
π’ @534 (20+5 :ATG) πͺ 456(-1), 631 β To @(20+8 TAC) <> π΄ High Energy Collision 450, 491, 502, 584, 619 β To @(20+5 ATG)
π· @536 (201+1 :AAG) πͺ 483, 499, 508(2), 555(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 588, 618, 635 β To @(201+5 GGG)
π’ @537 (202+4 :GGA) πͺ 506(3), 634(-2) β To @(3+8 CCT) <> π΄ High Energy Collision 487, 510, 513, 556, 566, 601, 616 β To @(202+4 GGA)
π· @538 (3+2 :AAT) π 447, 511(-2), 558, 597, 607 β To @(3+1 TTA) <> π΄ High Energy Collision 444, 461, 471, 490, 541, 583 β To @(3+2 AAT)
π° @539 (20+2 :CAT) πͺ 531, 570(-1), 600(2) β To @(20+22 GTA) <> π΄ High Energy Collision 517 β To @(20+2 CAT)
π· @541 (3+2 :AAT) π 447, 511, 558, 597(3), 607 β To @(3+1 TTA) <> π΄ High Energy Collision 444, 461, 471, 490, 538, 583 β To @(3+2 AAT)
π· @542 (5+2 :TGT) β 500(-1), 524, 578, 592, 595(3) β To @(5+1 TCT) <> π΄ High Energy Collision 573 β To @(5+2 TGT)
π’ @544 (203+1 :CAA) πͺ 446(2), 488 β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 459, 464, 479, 480, 484, 501, 562, 625, 641 β To @(203+1, 203+5 CAA, CGG)
π’ @547 (20+9 :TCA) πͺ 478, 623 β To @(20+21 AGT) <> π΄ High Energy Collision 563, 612, 624, 643 β To @(20+9 TCA)
π’ @548 (20+4 :GCT) πͺ 591(6) β To @(203+3 CGA) <> π΄ High Energy Collision 475, 509, 532, 533, 581, 620 β To @(20+4 GCT)
π’ @549 (203+2 :CAG) πͺ 593(10), 621(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 470, 522, 630 β To @(203+2 CAG)
π· @550 (201+3 :AGA) πͺ 500(2), 524(-1), 578, 592(7), 595(3) β To @(5+1 TCT) <> π΄ High Energy Collision 474, 557, 602, 622 β To @(201+3 AGA)
π’ @551 (20+1 :CTG) πͺ 465, 494, 497 β To @(204+1 GAC) <> π΄ High Energy Collision 527, 571, 610, 627, 633, 640 β To @(20+1 CTG)
π’ @553 (5+5 :TGG) β 593(3), 621 β To @(5+6 GTC) <> π΄ High Energy Collision 520 β To @(5+5 TGG)
π° @554 (5+3 :TTG) βπͺ Flow Figure8 + Opposites488(-1), 560, 586, 617(-1), 626 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 473, 530, 582, 596, 613 β To @(5+3 TTG)
π· @555 (3+7 :TTC) πͺπ Opposites + Structural Lock Key506(-2), 536(-2), 634 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 483, 499, 508 β To @(3+7 TTC)
π’ @556 (202+4 :GGA) πͺ 506(-1), 634 β To @(3+8 CCT) <> π΄ High Energy Collision 487, 510, 513, 537, 566, 601, 616 β To @(202+4 GGA)
π· @557 (201+3 :AGA) πͺ 500(-1), 524, 578, 592, 595(-1) β To @(5+1 TCT) <> π΄ High Energy Collision 474, 550, 602, 622 β To @(201+3 AGA)
π· @558 (3+1 :TTA) π 461, 471(2), 490, 538, 541, 583(3), 654 β To @(3+2 AAT) <> π΄ High Energy Collision 511, 597, 607 β To @(3+1 TTA)
π’ @559 (201+4 :AGC) πͺ 611(3) β To @(20+10 TCG)
π° @560 (201+2 :AAC) πͺ 473(2), 530, 554, 582(3), 596(1), 613(3), 657(1) β To @(5+3 TTG) <> π΄ High Energy Collision 586, 617, 626 β To @(201+2 AAC)
π’ @562 (203+1 :CAA) πͺ 488, 660(1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 464, 479, 480, 484, 501, 544, 625, 641 β To @(203+1, 203+5 CAA, CGG)
π’ @563 (20+9 :TCA) πͺ 478(-3), 623(-3), 650 β To @(20+21 AGT) <> π΄ High Energy Collision 547, 612, 624, 643 β To @(20+9 TCA)
π’ @566 (202+4 :GGA) πͺ 506(-1), 634 β To @(3+8 CCT) <> π΄ High Energy Collision 487, 510, 513, 537, 556, 601, 616, 658, 662 β To @(202+4 GGA)
π’ @569 (20+24 :GAT) πͺ 665 β To @(20+17 CTA) <> π΄ High Energy Collision 481, 507, 552, 603, 608, 637, 646 β To @(20+24 GAT)
π’ @570 (20+22 :GTA) πͺ 517, 539(-1) β To @(20+2 CAT) <> π΄ High Energy Collision 531, 600, 648 β To @(20+22 GTA)
π’ @571 (20+1 :CTG) πͺ 494, 497 β To @(204+1 GAC) <> π΄ High Energy Collision 527, 551, 610, 627, 633, 640 β To @(20+1 CTG)
π° @573 (5+2 :TGT) βπͺ Flow Figure8 + Opposites500(1), 524(-1), 578, 592(2), 595, 642, 663 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 542 β To @(5+2 TGT)
π· @574 (20+23 :GTG) πͺ 589, 647 β To @(20+13 CAC) <> π΄ High Energy Collision 518, 606, 609 β To @(20+23 GTG)
π° @578 (5+1 :TCT) βπͺ Flow Figure8 + Opposites542, 550, 557, 573, 602(-1), 622, 667 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 500, 524, 592, 595, 663 β To @(5+1 TCT)
π· @581 (20+4 :GCT) πͺ 591 β To @(203+3 CGA) <> π΄ High Energy Collision 509, 532, 533, 548, 620, 664, 673 β To @(20+4 GCT)
π° @582 (5+3 :TTG) βπͺ Flow Figure8 + Opposites488(-1), 560(3), 586(-1), 617, 626, 660(-1), 675(-3) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 530, 554, 596, 613, 657 β To @(5+3 TTG)
π· @583 (3+2 :AAT) π 511, 558(3), 597(-2), 607 β To @(3+1 TTA) <> π΄ High Energy Collision 490, 538, 541, 654 β To @(3+2 AAT)
π’ @584 (20+5 :ATG) πͺ 631, 670 β To @(20+8 TAC) <> π΄ High Energy Collision 491, 502, 534, 619, 644, 651, 652, 656, 681 β To @(20+5 ATG)
π° @586 (201+2 :AAC) πͺ 530, 554, 582(-1), 596, 613(-1), 657(-1) β To @(5+3 TTG) <> π΄ High Energy Collision 560, 617, 626 β To @(201+2 AAC)
π· @589 (20+13 :CAC) πͺ 518, 574, 606, 609 β To @(20+23 GTG) <> π΄ High Energy Collision 647 β To @(20+13 CAC)
π· @591 (203+3 :CGA) πͺ 509, 532, 533(-1), 548(6), 581, 620(2), 664(-2), 673 β To @(20+4 GCT)
π· @592 (5+1 :TCT) βπͺ Flow Figure8 + Opposites542, 550(7), 557, 573(2), 602, 622(1), 667(5) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 500, 524, 578, 595, 663 β To @(5+1 TCT)
π’ @593 (5+6 :GTC) βπͺ Flow Figure8 + Opposites520, 522(-1), 549(10), 553(3), 630, 669(5), 692 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 621, 655, 659 β To @(5+6 GTC)
π° @595 (5+1 :TCT) βπͺ Flow Figure8 + Opposites542(3), 550(3), 557(-1), 573, 602, 622(-1), 667(2) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 500, 524, 578, 592, 663 β To @(5+1 TCT)
π· @596 (5+3 :TTG) βπͺ Flow Figure8 + Opposites560(1), 586, 617, 626, 660(-1), 675(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 530, 554, 582, 613, 657 β To @(5+3 TTG)
π· @597 (3+1 :TTA) π 538, 541(3), 583(-2), 654, 694 β To @(3+2 AAT) <> π΄ High Energy Collision 511, 558, 607 β To @(3+1 TTA)
π’ @600 (20+22 :GTA) πͺ 517(-1), 539(2), 677(-1) β To @(20+2 CAT) <> π΄ High Energy Collision 531, 570, 648 β To @(20+22 GTA)
π’ @601 (202+4 :GGA) πͺ 506(-1), 634 β To @(3+8 CCT) <> π΄ High Energy Collision 510, 513, 537, 556, 566, 616, 658, 662, 691, 697 β To @(202+4 GGA)
π° @602 (201+3 :AGA) πͺ 524, 578(-1), 592, 595, 663(1) β To @(5+1 TCT) <> π΄ High Energy Collision 550, 557, 622, 667 β To @(201+3 AGA)
π’ @603 (20+24 :GAT) πͺ 665(2) β To @(20+17 CTA) <> π΄ High Energy Collision 507, 552, 569, 608, 637, 646 β To @(20+24 GAT)
π· @606 (20+23 :GTG) πͺ 589, 647(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 518, 574, 609 β To @(20+23 GTG)
π· @607 (3+1 :TTA) π 538, 541, 583, 654, 694 β To @(3+2 AAT) <> π΄ High Energy Collision 511, 558, 597 β To @(3+1 TTA)
π’ @608 (20+24 :GAT) πͺ 665 β To @(20+17 CTA) <> π΄ High Energy Collision 552, 569, 603, 637, 646, 706 β To @(20+24 GAT)
π· @609 (20+23 :GTG) πͺ 589, 647(-2) β To @(20+13 CAC) <> π΄ High Energy Collision 518, 574, 606 β To @(20+23 GTG)
π’ @611 (20+10 :TCG) πͺ 559(3) β To @(201+4 AGC)
π· @612 (20+9 :TCA) πͺ 623(-2), 650, 695 β To @(20+21 AGT) <> π΄ High Energy Collision 547, 563, 624, 643 β To @(20+9 TCA)
π° @613 (5+3 :TTG) βπͺ Flow Figure8 + Opposites560(3), 586(-1), 617, 626(1), 660(-1), 675(-2), 711(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 530, 554, 582, 596, 657 β To @(5+3 TTG)
π· @616 (202+4 :GGA) πͺ 634(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 537, 556, 566, 601, 658...,703, 705, 712, 714 β To @(202+4 GGA)
π° @617 (201+2 :AAC) πͺ 530, 554(-1), 582, 596, 613, 657(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 560, 586, 626, 711 β To @(201+2 AAC)
π· @619 (20+5 :ATG) πͺ 631(3), 670(3), 687 β To @(20+8 TAC) <> π΄ High Energy Collision 534, 584, 644, 651, 652, 656, 681, 708 β To @(20+5 ATG)
π· @620 (20+4 :GCT) πͺ 591(2) β To @(203+3 CGA) <> π΄ High Energy Collision 532, 533, 548, 581, 664, 673 β To @(20+4 GCT)
π° @621 (5+6 :GTC) βπͺ Flow Figure8 + Opposites522(3), 549(-2), 553, 630(3), 669(2), 692 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 593, 655, 659, 696 β To @(5+6 GTC)
π· @622 (201+3 :AGA) πͺ 524(3), 578, 592(1), 595(-1), 663(-1), 704 β To @(5+1 TCT) <> π΄ High Energy Collision 550, 557, 602, 667 β To @(201+3 AGA)
π° @623 (20+21 :AGT) πͺ 547, 563(-3), 612(-2), 624(4), 643(-2) β To @(20+9 TCA) <> π΄ High Energy Collision 650, 695 β To @(20+21 AGT)
π° @624 (20+9 :TCA) πͺ 623(4), 650(-2), 695(-2) β To @(20+21 AGT) <> π΄ High Energy Collision 547, 563, 612, 643 β To @(20+9 TCA)
π’ @625 (203+1 :CAA) πͺ 660(2), 675, 713(-1) β To @(5+4 GTT) <> π΄ High Energy Collision 544, 562, 641, 684 β To @(203+1 CAA)
π· @626 (201+2 :AAC) πͺ 530, 554, 582, 596, 613(1), 657 β To @(5+3 TTG) <> π΄ High Energy Collision 560, 586, 617, 711 β To @(201+2 AAC)
π’ @627 (20+1 :CTG) πͺ 723 β To @(204+1 GAC) <> π΄ High Energy Collision 551, 571, 610, 633, 640 β To @(20+1 CTG)
π° @630 (203+2 :CAG) πͺ 593, 621(3), 655(6), 659(2), 696 β To @(5+6 GTC) <> π΄ High Energy Collision 549 β To @(203+2 CAG)
π· @631 (20+8 :TAC) πͺ 534, 584, 619(3), 644, 651, 652, 656(4), 681(-1), 708, 727(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 670, 687, 728 β To @(20+8 TAC)
π’ @633 (20+1 :CTG) πͺ 723(7) β To @(204+1 GAC) <> π΄ High Energy Collision 551, 571, 610, 627, 640 β To @(20+1 CTG)
π· @634 (3+8 :CCT) πͺπ Opposites + Structural Lock Key537(-2), 555, 556, 566, 601, 616(-1), 658(1), 662, 691, 697(-1), 698(-2), 703, 705, 712, 714, 721(3), 724(2), 731(-1) β To @(202+4, 3+7 GGA, TTC)
π· @637 (20+24 :GAT) πͺ 665 β To @(20+17 CTA) <> π΄ High Energy Collision 552, 569, 603, 608, 646, 706, 715, 716 β To @(20+24 GAT)
π· @639 (20+15 :CTC) πͺ 661(3), 676(3), 679 β To @(202+3 GAG)
π’ @640 (20+1 :CTG) πͺ 723 β To @(204+1 GAC) <> π΄ High Energy Collision 551, 571, 610, 627, 633 β To @(20+1 CTG)
π· @641 (203+1 :CAA) πͺ 660(3), 675(3), 713 β To @(5+4 GTT) <> π΄ High Energy Collision 544, 562, 625, 684 β To @(203+1 CAA)
π’ @642 (20+19 :ACA) πͺ 573 β To @(5+2 TGT) <> π΄ High Energy Collision 682 β To @(20+19 ACA)
π° @643 (20+9 :TCA) πͺ 623(-2), 650, 695 β To @(20+21 AGT) <> π΄ High Energy Collision 547, 563, 612, 624, 726 β To @(20+9 TCA)
π· @644 (20+5 :ATG) πͺ 631, 670, 687, 728(-3) β To @(20+8 TAC) <> π΄ High Energy Collision 584, 619, 651, 652, 656, 681, 708, 727 β To @(20+5 ATG)
π° @645 (202+1 :AGG) πͺ 649(2) β To @(5+7 TCC) <> π΄ High Energy Collision 699, 739 β To @(201+1 AAG)
π· @646 (20+24 :GAT) πͺ 665 β To @(20+17 CTA) <> π΄ High Energy Collision 552, 569, 603, 608, 637, 706, 715, 716, 745 β To @(20+24 GAT)
π’ @647 (20+13 :CAC) πͺ 574, 606(-1), 609(-2) β To @(20+23 GTG) <> π΄ High Energy Collision 589, 738 β To @(20+13 CAC)
π· @648 (20+22 :GTA) πͺ 677 β To @(20+2 CAT) <> π΄ High Energy Collision 570, 600 β To @(20+22 GTA)
π° @649 (5+7 :TCC) πͺ 645(2) β To @(202+1 AGG)
π° @650 (20+21 :AGT) πͺ 563, 612, 624(-2), 643, 726(2) β To @(20+9 TCA) <> π΄ High Energy Collision 623, 695 β To @(20+21 AGT)
π· @651 (20+5 :ATG) πͺ 631, 670, 687(-1), 728(1) β To @(20+8 TAC) <> π΄ High Energy Collision 584, 619, 644, 652, 656, 681, 708, 727 β To @(20+5 ATG)
π· @652 (20+5 :ATG) πͺ 631, 670, 687(-2), 728(1) β To @(20+8 TAC) <> π΄ High Energy Collision 584, 619, 644, 651, 656, 681, 708, 727 β To @(20+5 ATG)
π’ @653 (203+4 :CCA) πͺ 709(-3), 730(5), 744 β To @(20+25 GGT) <> π΄ High Energy Collision 561, 579, 604, 686, 700, 702 β To @(203+4 CCA)
π’ @654 (3+2 :AAT) π 558, 597, 607, 740 β To @(3+1 TTA) <> π΄ High Energy Collision 583, 694 β To @(3+2 AAT)
π· @655 (5+6 :GTC) βπͺ Flow Figure8 + Opposites630(6), 669(6), 692(-1) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 593, 621, 659, 696, 736, 746 β To @(5+6 GTC)
π· @656 (20+5 :ATG) πͺ 631(4), 670(4), 687, 728(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 584, 619, 644, 651, 652, 681, 708, 727 β To @(20+5 ATG)
π° @657 (5+3 :TTG) βπͺ Flow Figure8 + Opposites560(1), 586(-1), 617(-3), 626, 660(-2), 675, 711(-2), 713(-4) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 582, 596, 613, 753 β To @(5+3 TTG)
π· @658 (202+4 :GGA) πͺ 634(1), 756(1) β To @(3+8 CCT) <> π΄ High Energy Collision 566, 601, 616, 662, 691...,721, 724, 731, 748 β To @(202+4 GGA)
π· @659 (5+6 :GTC) βπͺ Flow Figure8 + Opposites630(2), 669(2), 692(-2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 593, 621, 655, 696, 736, 746 β To @(5+6 GTC)
π° @660 (5+4 :GTT) βπͺ Flow Figure8 + Opposites562(1), 582(-1), 596(-1), 613(-1), 625(2), 641(3), 657(-2), 684, 753 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 675, 713 β To @(5+4 GTT)
π· @661 (202+3 :GAG) πͺ 639(3) β To @(20+15 CTC) <> π΄ High Energy Collision 565, 577, 580, 587, 598...,676, 679, 742, 757 β To @(202+2, 202+3 GAA, GAG)
π· @662 (202+4 :GGA) πͺ 634, 756(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 566, 601, 616, 658, 691...,721, 724, 731, 748 β To @(202+4 GGA)
π° @663 (5+1 :TCT) βπͺ Flow Figure8 + Opposites573, 602(1), 622(-1), 667, 734(2), 749(-2) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 578, 592, 595, 704, 733 β To @(5+1 TCT)
π’ @664 (20+4 :GCT) πͺ 591(-2), 735(3) β To @(203+3 CGA) <> π΄ High Energy Collision 581, 620, 673 β To @(20+4 GCT)
π· @665 (20+17 :CTA) πͺ 569, 603(2), 608, 637, 646, 706(2), 715(-1), 716(-2), 745 β To @(20+24 GAT)
π° @667 (201+3 :AGA) πͺ 578, 592(5), 595(2), 663, 704(2), 733(-3) β To @(5+1 TCT) <> π΄ High Energy Collision 602, 622, 734 β To @(201+3 AGA)
π· @669 (5+5 :TGG) β 593(5), 621(2), 655(6), 659(2), 696, 736(1), 746, 762 β To @(5+6 GTC) <> π΄ High Energy Collision 692 β To @(5+5 TGG)
π· @670 (20+8 :TAC) πͺ 584, 619(3), 644, 651, 652, 656(4), 681, 708(-1), 727(-3), 767 β To @(20+5 ATG) <> π΄ High Energy Collision 631, 687, 728 β To @(20+8 TAC)
π’ @673 (20+4 :GCT) πͺ 591, 735 β To @(203+3 CGA) <> π΄ High Energy Collision 581, 620, 664 β To @(20+4 GCT)
π° @675 (5+4 :GTT) βπͺ Flow Figure8 + Opposites582(-3), 596(-2), 613(-2), 625, 641(3), 657, 684, 753 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 660, 713 β To @(5+4 GTT)
π’ @676 (202+3 :GAG) πͺ 639(3) β To @(20+15 CTC) <> π΄ High Energy Collision 577, 580, 587, 598, 615...,674, 679, 742, 757 β To @(202+2, 202+3 GAA, GAG)
π· @677 (20+2 :CAT) πͺ 600(-1), 648 β To @(20+22 GTA)
π’ @679 (202+3 :GAG) πͺ 639 β To @(20+15 CTC) <> π΄ High Energy Collision 580, 587, 598, 615, 661, 672, 674, 676, 742, 757 β To @(202+2, 202+3 GAA, GAG)
π° @681 (20+5 :ATG) πͺ 631(-1), 670, 687(-1), 728(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 584, 619, 644, 651, 652, 656, 708, 727, 767 β To @(20+5 ATG)
π’ @682 (20+19 :ACA) πͺ 749 β To @(5+2 TGT) <> π΄ High Energy Collision 642, 765 β To @(20+19 ACA)
π° @684 (203+1 :CAA) πͺ 660, 675, 713 β To @(5+4 GTT) <> π΄ High Energy Collision 625, 641 β To @(203+1 CAA)
π· @686 (203+4 :CCA) πͺ 709(4), 730(1), 744 β To @(20+25 GGT) <> π΄ High Energy Collision 604, 653, 700, 702, 782 β To @(203+4 CCA)
π° @687 (20+8 :TAC) πͺ 619, 644, 651(-1), 652(-2), 656, 681(-1), 708(4), 727(-2), 767, 784(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 631, 670, 728 β To @(20+8 TAC)
π’ @691 (202+4 :GGA) πͺ 634, 756 β To @(3+8 CCT) <> π΄ High Energy Collision 601, 616, 658, 662, 697...,748, 764, 769, 778 β To @(202+4 GGA)
π° @692 (5+5 :TGG) β 593, 621, 655(-1), 659(-2), 696(-2), 736, 746(-2), 762(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 669 β To @(5+5 TGG)
π’ @694 (3+2 :AAT) π 597, 607, 740 β To @(3+1 TTA) <> π΄ High Energy Collision 654, 763 β To @(3+2 AAT)
π’ @695 (20+21 :AGT) πͺ 612, 624(-2), 643, 726, 770(-3) β To @(20+9 TCA) <> π΄ High Energy Collision 623, 650, 761, 768 β To @(20+21 AGT)
π° @696 (5+6 :GTC) βπͺ Flow Figure8 + Opposites630, 669, 692(-2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 621, 655, 659, 736, 746, 762 β To @(5+6 GTC)
π’ @697 (202+4 :GGA) πͺ 634(-1), 756 β To @(3+8 CCT) <> π΄ High Energy Collision 601, 616, 658, 662, 691...,748, 764, 769, 778 β To @(202+4 GGA)
π° @698 (3+7 :TTC) πͺπ Opposites + Structural Lock Key634(-2), 699(4), 739(-2), 756, 759, 773(1), 789(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 771, 774, 780, 781 β To @(3+7 TTC)
π° @699 (201+1 :AAG) πͺ 698(4), 771(-1), 774, 780(-5), 781(-6) β To @(3+7 TTC) <> π΄ High Energy Collision 618, 635, 645, 739, 759, 773, 789 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π° @700 (203+4 :CCA) πͺ 709, 730(-2), 744 β To @(20+25 GGT) <> π΄ High Energy Collision 604, 653, 686, 702, 782 β To @(203+4 CCA)
π° @702 (203+4 :CCA) πͺ 709, 730(-4), 744 β To @(20+25 GGT) <> π΄ High Energy Collision 604, 653, 686, 700, 782 β To @(203+4 CCA)
π’ @703 (202+4 :GGA) πͺ 634, 756 β To @(3+8 CCT) <> π΄ High Energy Collision 616, 658, 662, 691, 697...,778, 797, 798, 801 β To @(202+4 GGA)
π’ @704 (5+1 :TCT) βπͺ Flow Figure8 + Opposites622, 667(2), 734(-2), 749(-4), 792, 802(-4) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 663, 733, 785, 787 β To @(5+1 TCT)
π’ @705 (202+4 :GGA) πͺ 634, 756 β To @(3+8 CCT) <> π΄ High Energy Collision 616, 658, 662, 691, 697...,778, 797, 798, 801 β To @(202+4 GGA)
π’ @706 (20+24 :GAT) πͺ 665(2) β To @(20+17 CTA) <> π΄ High Energy Collision 608, 637, 646, 715, 716, 745, 777 β To @(20+24 GAT)
π· @708 (20+5 :ATG) πͺ 631, 670(-1), 687(4), 728(-3) β To @(20+8 TAC) <> π΄ High Energy Collision 619, 644, 651, 652, 656, 681, 727, 767, 784 β To @(20+5 ATG)
π° @709 (20+25 :GGT) πͺ 653(-3), 686(4), 700, 702, 782(-1), 807(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 730, 744, 806 β To @(20+25 GGT)
π’ @710 (20+12 :TGC) πͺ 754(6) β To @(20+20 ACG) <> π΄ High Energy Collision 614 β To @(20+12 TGC)
π’ @711 (201+2 :AAC) πͺ 613(-2), 657(-2), 753(4) β To @(5+3 TTG) <> π΄ High Energy Collision 617, 626, 775, 799 β To @(201+2 AAC)
π’ @712 (202+4 :GGA) πͺ 634, 756(6) β To @(3+8 CCT) <> π΄ High Energy Collision 616, 658, 662, 691, 697...,797, 798, 801, 810 β To @(202+4 GGA)
π· @713 (5+4 :GTT) βπͺ Flow Figure8 + Opposites625(-1), 641, 657(-4), 684, 753(2), 800(-7) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 660, 675, 790 β To @(5+4 GTT)
π’ @714 (202+4 :GGA) πͺ 634, 756(2) β To @(3+8 CCT) <> π΄ High Energy Collision 616, 658, 662, 691, 697...,797, 798, 801, 810 β To @(202+4 GGA)
π’ @715 (20+24 :GAT) πͺ 665(-1) β To @(20+17 CTA) <> π΄ High Energy Collision 637, 646, 706, 716, 745, 777 β To @(20+24 GAT)
π’ @716 (20+24 :GAT) πͺ 665(-2) β To @(20+17 CTA) <> π΄ High Energy Collision 637, 646, 706, 715, 745, 777 β To @(20+24 GAT)
π’ @721 (202+4 :GGA) πͺ 634(3), 756 β To @(3+8 CCT) <> π΄ High Energy Collision 658, 662, 691, 697, 703...,798, 801, 810, 820 β To @(202+4 GGA)
π· @723 (204+1 :GAC) πͺ 627, 633(7), 640, 741(-2) β To @(20+1 CTG) <> π΄π‘βοΈ βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 636, 668, 683, 689, 707...,743, 752, 772, 804 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @724 (202+4 :GGA) πͺ 634(2), 756 β To @(3+8 CCT) <> π΄ High Energy Collision 658, 662, 691, 697, 703...,798, 801, 810, 820 β To @(202+4 GGA)
π’ @726 (20+9 :TCA) πͺ 650(2), 695, 761, 768(-2) β To @(20+21 AGT) <> π΄ High Energy Collision 643, 770, 812 β To @(20+9 TCA)
π° @727 (20+5 :ATG) πͺ 631(-2), 670(-3), 687(-2), 728(4) β To @(20+8 TAC) <> π΄ High Energy Collision 644, 651, 652, 656, 681, 708, 767, 784 β To @(20+5 ATG)
π° @728 (20+8 :TAC) πͺ 644(-3), 651(1), 652(1), 656(-1), 681(-2), 708(-3), 727(4), 767(1), 784 β To @(20+5 ATG) <> π΄ High Energy Collision 631, 670, 687 β To @(20+8 TAC)
π· @730 (20+25 :GGT) πͺ 653(5), 686(1), 700(-2), 702(-4), 782(2), 807(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 709, 744, 806 β To @(20+25 GGT)
π· @731 (202+4 :GGA) πͺ 634(-1), 756 β To @(3+8 CCT) <> π΄ High Energy Collision 658, 662, 691, 697, 703...,798, 801, 810, 820 β To @(202+4 GGA)
π° @733 (5+1 :TCT) βπͺ Flow Figure8 + Opposites667(-3), 734(4), 749(-1), 792, 802(-3), 827 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 663, 704, 785, 787 β To @(5+1 TCT)
π° @734 (201+3 :AGA) πͺ 663(2), 704(-2), 733(4), 785(-3), 787(-3) β To @(5+1 TCT) <> π΄ High Energy Collision 667, 802 β To @(201+3 AGA)
π’ @735 (203+3 :CGA) πͺ 664(3), 673 β To @(20+4 GCT)
π’ @736 (5+6 :GTC) β 669(1), 692 β To @(5+5 TGG) <> π΄ High Energy Collision 655, 659, 696, 746, 762, 818 β To @(5+6 GTC)
π’ @737 (202+5 :GGC) πͺ 808 β To @(20+14 CCG)
π’ @739 (201+1 :AAG) πͺ 698(-2), 771(-2), 774(-2), 780, 781, 838(3) β To @(3+7 TTC) <> π΄ High Energy Collision 645, 699, 759, 773, 789, 835 β To @(201+1, 202+1 AAG, AGG)
π· @740 (3+1 :TTA) π 654, 694, 763, 836(1) β To @(3+2 AAT) <> π΄ High Energy Collision 803 β To @(3+1 TTA)
π· @741 (20+1 :CTG) πͺ 723(-2), 752(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 833 β To @(20+1 CTG)
π’ @744 (20+25 :GGT) πͺ 653, 686, 700, 702, 782, 807(-2), 841(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 709, 730, 806, 831, 840 β To @(20+25 GGT)
π’ @745 (20+24 :GAT) πͺ 665, 828(-2) β To @(20+17 CTA) <> π΄ High Energy Collision 646, 706, 715, 716, 777, 826, 832 β To @(20+24 GAT)
π’ @746 (5+6 :GTC) β 669, 692(-2) β To @(5+5 TGG) <> π΄ High Energy Collision 655, 659, 696, 736, 762, 818 β To @(5+6 GTC)
π° @748 (202+4 :GGA) πͺ 756 β To @(3+8 CCT) <> π΄ High Energy Collision 658, 662, 691, 697, 703...,801, 810, 820, 834 β To @(202+4 GGA)
π· @749 (5+2 :TGT) βπͺ Flow Figure8 + Opposites663(-2), 682, 704(-4), 733(-1), 765(-2), 785, 787, 843(-1) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 792, 827 β To @(5+2 TGT)
π· @752 (204+1 :GAC) πͺ 741(-2), 833 β To @(20+1 CTG) <> π΄π‘βοΈ βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 668, 683, 689, 707, 723, 725, 732, 743, 772, 804 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @753 (5+3 :TTG) βπͺ Flow Figure8 + Opposites660, 675, 711(4), 713(2), 775(-2), 790, 799, 814, 815, 819, 846(-2), 847(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 657, 848 β To @(5+3 TTG)
π’ @754 (20+20 :ACG) πͺ 710(6) β To @(20+12 TGC) <> π΄ High Energy Collision 825 β To @(20+20 ACG)
π° @756 (3+8 :CCT) πͺπ Opposites + Structural Lock Key658(1), 662(-1), 691, 697, 698, 703, 705, 712(6), 714(2), 721, 724, 731, 748, 764, 769, 771, 774(1), 778(-1), 780, 781, 797, 798(2), 801(1), 810, 820, 834, 838(-3), 845 β To @(202+4, 3+7 GGA, TTC)
π· @759 (201+1 :AAG) πͺ 698, 771(2), 774(-3), 780(3), 781(2), 838(-3), 845(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 699, 739, 773, 789, 835 β To @(201+1 AAG)
π° @761 (20+21 :AGT) πͺ 726, 770(1), 812(-2) β To @(20+9 TCA) <> π΄ High Energy Collision 695, 768, 839 β To @(20+21 AGT)
π’ @762 (5+6 :GTC) β 669, 692(-2) β To @(5+5 TGG) <> π΄ High Energy Collision 696, 736, 746, 818 β To @(5+6 GTC)
π· @763 (3+2 :AAT) π 740, 803(-1) β To @(3+1 TTA) <> π΄ High Energy Collision 694, 836 β To @(3+2 AAT)
π° @764 (202+4 :GGA) πͺ 756 β To @(3+8 CCT) <> π΄ High Energy Collision 691, 697, 703, 705, 712...,801, 810, 820, 834 β To @(202+4 GGA)
π· @765 (20+19 :ACA) πͺ 749(-2), 792, 827 β To @(5+2 TGT) <> π΄ High Energy Collision 682, 843, 854 β To @(20+19 ACA)
π’ @767 (20+5 :ATG) πͺ 670, 687, 728(1) β To @(20+8 TAC) <> π΄ High Energy Collision 681, 708, 727, 784 β To @(20+5 ATG)
π° @768 (20+21 :AGT) πͺ 726(-2), 770(2), 812(-3) β To @(20+9 TCA) <> π΄ High Energy Collision 695, 761, 839 β To @(20+21 AGT)
π· @769 (202+4 :GGA) πͺ 756 β To @(3+8 CCT) <> π΄ High Energy Collision 691, 697, 703, 705, 712...,801, 810, 820, 834 β To @(202+4 GGA)
π° @770 (20+9 :TCA) πͺ 695(-3), 761(1), 768(2), 839(-4) β To @(20+21 AGT) <> π΄ High Energy Collision 726, 812 β To @(20+9 TCA)
π° @771 (3+7 :TTC) πͺπ Opposites + Structural Lock Key699(-1), 739(-2), 756, 759(2), 773(3), 789(-2), 835(-3) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 698, 774, 780, 781, 838, 845 β To @(3+7 TTC)
π° @773 (201+1 :AAG) πͺ 698(1), 771(3), 774(5), 780(-7), 781(-7), 838(1), 845(-5) β To @(3+7 TTC) <> π΄ High Energy Collision 699, 739, 759, 789, 835 β To @(201+1 AAG)
π° @774 (3+7 :TTC) πͺπ Opposites + Structural Lock Key699, 739(-2), 756(1), 759(-3), 773(5), 789(-2), 835(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 698, 771, 780, 781, 838, 845 β To @(3+7 TTC)
π· @775 (201+2 :AAC) πͺ 753(-2), 848(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 711, 799, 819, 846, 847, 864 β To @(201+2 AAC)
π’ @777 (20+24 :GAT) πͺ 828(-2) β To @(20+17 CTA) <> π΄ High Energy Collision 706, 715, 716, 745, 826, 832, 857 β To @(20+24 GAT)
π· @778 (202+4 :GGA) πͺ 756(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 691, 697, 703, 705, 712...,801, 810, 820, 834 β To @(202+4 GGA)
π° @780 (3+7 :TTC) πͺπ Opposites + Structural Lock Key699(-5), 739, 756, 759(3), 773(-7), 789, 835(-1) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 698, 771, 774, 781, 838, 845 β To @(3+7 TTC)
π° @781 (3+7 :TTC) πͺπ Opposites + Structural Lock Key699(-6), 739, 756, 759(2), 773(-7), 789, 835 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 698, 771, 774, 780, 838, 845 β To @(3+7 TTC)
π· @782 (203+4 :CCA) πͺ 709(-1), 730(2), 744, 806(-2), 831, 840(-3) β To @(20+25 GGT) <> π΄ High Energy Collision 686, 700, 702, 807, 841, 850, 853, 855 β To @(203+4 CCA)
π’ @783 (20+22 :GTA) πͺ 865, 866, 871(-2), 879 β To @(20+2 CAT)
π’ @784 (20+5 :ATG) πͺ 687(-2), 728, 874(2) β To @(20+8 TAC) <> π΄ High Energy Collision 708, 727, 767, 870 β To @(20+5 ATG)
π° @785 (5+1 :TCT) βπͺ Flow Figure8 + Opposites734(-3), 749, 792, 802, 827 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 704, 733, 787 β To @(5+1 TCT)
π° @787 (5+1 :TCT) βπͺ Flow Figure8 + Opposites734(-3), 749, 792, 802, 827 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 704, 733, 785 β To @(5+1 TCT)
π° @789 (201+1 :AAG) πͺ 698(-2), 771(-2), 774(-2), 780, 781, 838, 845(2) β To @(3+7 TTC) <> π΄ High Energy Collision 699, 739, 759, 773, 835, 885, 886 β To @(201+1, 202+1 AAG, AGG)
π· @790 (5+4 :GTT) βπͺ Flow Figure8 + Opposites753, 800(1), 823, 842(3), 848(2), 862, 878 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 713, 814, 815, 858 β To @(5+4 GTT)
π’ @791 (5+7 :TCC) πͺ 885(-3) β To @(202+1 AGG) <> π΄ High Energy Collision 750, 859 β To @(5+7 TCC)
π° @792 (5+2 :TGT) βπͺ Flow Figure8 + Opposites704, 733, 765, 785, 787, 843(2), 854 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 749, 827 β To @(5+2 TGT)
π’ @797 (202+4 :GGA) πͺ 756 β To @(3+8 CCT) <> π΄ High Energy Collision 703, 705, 712, 714, 721...,820, 834, 890, 894 β To @(202+4 GGA)
π’ @798 (202+4 :GGA) πͺ 756(2) β To @(3+8 CCT) <> π΄ High Energy Collision 703, 705, 712, 714, 721...,820, 834, 890, 894 β To @(202+4 GGA)
π’ @799 (201+2 :AAC) πͺ 753, 848(-4), 878(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 711, 775, 819, 846, 847, 864, 877 β To @(201+2 AAC)
π· @800 (203+1 :CAA) πͺ 713(-7), 790(1), 814, 815, 858 β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 793, 823, 842, 862 β To @(203+1, 203+5 CAA, CGG)
π’ @801 (202+4 :GGA) πͺ 756(1) β To @(3+8 CCT) <> π΄ High Energy Collision 703, 705, 712, 714, 721...,820, 834, 890, 894 β To @(202+4 GGA)
π· @802 (201+3 :AGA) πͺ 704(-4), 733(-3), 785, 787 β To @(5+1 TCT) <> π΄ High Energy Collision 734 β To @(201+3 AGA)
π’ @803 (3+1 :TTA) π 763(-1), 836 β To @(3+2 AAT) <> π΄ High Energy Collision 740 β To @(3+1 TTA)
π° @806 (20+25 :GGT) πͺ 782(-2), 807(4), 841, 850(-2), 853(-3), 855(-3), 905(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 709, 730, 744, 831, 840 β To @(20+25 GGT)
π° @807 (203+4 :CCA) πͺ 709(-2), 730(-2), 744(-2), 806(4), 831(-2), 840 β To @(20+25 GGT) <> π΄ High Energy Collision 782, 841, 850, 853, 855, 905 β To @(203+4 CCA)
π’ @808 (20+14 :CCG) πͺ 737 β To @(202+5 GGC)
π’ @810 (202+4 :GGA) πͺ 756 β To @(3+8 CCT) <> π΄ High Energy Collision 712, 714, 721, 724, 731...,820, 834, 890, 894 β To @(202+4 GGA)
π· @812 (20+9 :TCA) πͺ 761(-2), 768(-3), 839 β To @(20+21 AGT) <> π΄ High Energy Collision 726, 770, 898 β To @(20+9 TCA)
π’ @813 (204+2 :GCA) πͺ 897(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 788, 817, 860, 867, 883 β To @(204+2 GCA)
π° @814 (5+4 :GTT) βπͺ Flow Figure8 + Opposites753, 800, 823, 842(1), 848(-1), 862(-1), 878 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 790, 815, 858 β To @(5+4 GTT)
π° @815 (5+4 :GTT) βπͺ Flow Figure8 + Opposites753, 800, 823(-1), 842, 848(-2), 862, 878(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 790, 814, 858 β To @(5+4 GTT)
π’ @817 (204+2 :GCA) πͺ 897(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 788, 813, 860, 867, 883 β To @(204+2 GCA)
π’ @818 (5+6 :GTC) βπͺ Flow Figure8 + Opposites872, 882(-2), 891(-1) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 736, 746, 762 β To @(5+6 GTC)
π· @819 (201+2 :AAC) πͺ 753, 848(-5), 878(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 775, 799, 846, 847, 864, 877 β To @(201+2 AAC)
π’ @820 (202+4 :GGA) πͺ 756, 914(-2) β To @(3+8 CCT) <> π΄ High Energy Collision 721, 724, 731, 748, 764...,810, 834, 890, 894 β To @(202+4 GGA)
π° @823 (203+1 :CAA) πͺ 790, 814, 815(-1), 858(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 793, 800, 842, 862 β To @(203+1, 203+5 CAA, CGG)
π° @826 (20+24 :GAT) πͺ 828(2) β To @(20+17 CTA) <> π΄ High Energy Collision 745, 777, 832, 857 β To @(20+24 GAT)
π· @827 (5+2 :TGT) βπͺ Flow Figure8 + Opposites733, 765, 785, 787, 843, 854, 896, 908(-2) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 749, 792, 906 β To @(5+2 TGT)
π° @828 (20+17 :CTA) πͺ 745(-2), 777(-2), 826(2), 832(-2), 857 β To @(20+24 GAT)
π· @831 (20+25 :GGT) πͺ 782, 807(-2), 841(-2), 850(-2), 853(-1), 855, 905 β To @(203+4 CCA) <> π΄ High Energy Collision 744, 806, 840 β To @(20+25 GGT)
π° @832 (20+24 :GAT) πͺ 828(-2) β To @(20+17 CTA) <> π΄ High Energy Collision 745, 777, 826, 857 β To @(20+24 GAT)
π’ @833 (20+1 :CTG) πͺ 752 β To @(204+1 GAC) <> π΄ High Energy Collision 741, 863, 889, 924 β To @(20+1 CTG)
π’ @834 (202+4 :GGA) πͺ 756, 914(3) β To @(3+8 CCT) <> π΄ High Energy Collision 748, 764, 769, 778, 797...,810, 820, 890, 894 β To @(202+4 GGA)
π° @835 (201+1 :AAG) πͺ 771(-3), 774(-2), 780(-1), 781, 838, 845(-1) β To @(3+7 TTC) <> π΄ High Energy Collision 739, 759, 773, 789, 885, 886, 909, 918 β To @(201+1, 202+1 AAG, AGG)
π’ @836 (3+2 :AAT) π 740(1), 803, 913(6), 923(-2) β To @(3+1 TTA) <> π΄ High Energy Collision 763, 921 β To @(3+2 AAT)
π° @838 (3+7 :TTC) πͺπ Opposites + Structural Lock Key739(3), 756(-3), 759(-3), 773(1), 789, 835, 886(-2), 909, 914(3), 918 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 771, 774, 780, 781, 845 β To @(3+7 TTC)
π· @839 (20+21 :AGT) πͺ 770(-4), 812, 898 β To @(20+9 TCA) <> π΄ High Energy Collision 761, 768 β To @(20+21 AGT)
π° @840 (20+25 :GGT) πͺ 782(-3), 807, 841(4), 850(-2), 853(-3), 855(-3), 905(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 744, 806, 831 β To @(20+25 GGT)
π° @841 (203+4 :CCA) πͺ 744(-2), 806, 831(-2), 840(4) β To @(20+25 GGT) <> π΄ High Energy Collision 782, 807, 850, 853, 855, 905 β To @(203+4 CCA)
π· @842 (203+1 :CAA) πͺ 790(3), 814(1), 815, 858(1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 793, 800, 823, 862 β To @(203+1, 203+5 CAA, CGG)
π· @843 (20+19 :ACA) πͺ 749(-1), 792(2), 827, 906(-1) β To @(5+2 TGT) <> π΄ High Energy Collision 765, 854, 896, 908, 927, 928, 931 β To @(20+19 ACA)
π· @845 (3+7 :TTC) πͺπ Opposites + Structural Lock Key756, 759(-2), 773(-5), 789(2), 835(-1), 886(-2), 909, 914, 918, 944 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 771, 774, 780, 781, 838 β To @(3+7 TTC)
π° @846 (201+2 :AAC) πͺ 753(-2), 848(2), 878(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 775, 799, 819, 847, 864, 877 β To @(201+2 AAC)
π° @847 (201+2 :AAC) πͺ 753(-2), 848(3), 878(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 775, 799, 819, 846, 864, 877 β To @(201+2 AAC)
π° @848 (5+3 :TTG) βπͺ Flow Figure8 + Opposites775(-3), 790(2), 799(-4), 814(-1), 815(-2), 819(-5), 846(2), 847(3), 858, 864(-4), 877(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 753, 878 β To @(5+3 TTG)
π· @850 (203+4 :CCA) πͺ 806(-2), 831(-2), 840(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 782, 807, 841, 853, 855, 905 β To @(203+4 CCA)
π· @853 (203+4 :CCA) πͺ 806(-3), 831(-1), 840(-3) β To @(20+25 GGT) <> π΄ High Energy Collision 782, 807, 841, 850, 855, 905 β To @(203+4 CCA)
π· @854 (20+19 :ACA) πͺ 792, 827, 906(-6) β To @(5+2 TGT) <> π΄ High Energy Collision 765, 843, 896, 908, 927, 928, 931 β To @(20+19 ACA)
π· @855 (203+4 :CCA) πͺ 806(-3), 831, 840(-3), 954 β To @(20+25 GGT) <> π΄ High Energy Collision 782, 807, 841, 850, 853, 905 β To @(203+4 CCA)
π· @857 (20+24 :GAT) πͺ 828 β To @(20+17 CTA) <> π΄ High Energy Collision 777, 826, 832, 943 β To @(20+24 GAT)
π° @858 (5+4 :GTT) βπͺ Flow Figure8 + Opposites800, 823(-1), 842(1), 848, 862, 878 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 790, 814, 815, 951 β To @(5+4 GTT)
π· @859 (5+7 :TCC) πͺ 885(-1) β To @(202+1 AGG) <> π΄ High Energy Collision 791, 901 β To @(5+7 TCC)
π’ @860 (204+2 :GCA) πͺ 897 β To @(20+16 CGT) <> π΄ High Energy Collision 788, 813, 817, 867, 883, 925, 950 β To @(204+2 GCA)
π° @862 (203+1 :CAA) πͺ 790, 814(-1), 815, 858, 951(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 793, 800, 823, 842, 958, 960 β To @(203+1, 203+5 CAA, CGG)
π· @864 (201+2 :AAC) πͺ 848(-4), 878(-5) β To @(5+3 TTG) <> π΄ High Energy Collision 775, 799, 819, 846, 847, 877, 956 β To @(201+2 AAC)
π’ @865 (20+2 :CAT) πͺ 783 β To @(20+22 GTA) <> π΄ High Energy Collision 866, 871, 879, 904, 938 β To @(20+2 CAT)
π’ @866 (20+2 :CAT) πͺ 783 β To @(20+22 GTA) <> π΄ High Energy Collision 865, 871, 879, 904, 938 β To @(20+2 CAT)
π’ @867 (204+2 :GCA) πͺ 897 β To @(20+16 CGT) <> π΄ High Energy Collision 788, 813, 817, 860, 883, 925, 950 β To @(204+2 GCA)
π’ @868 (20+20 :ACG) πͺ 946 β To @(20+12 TGC) <> π΄ High Energy Collision 825 β To @(20+20 ACG)
π° @870 (20+5 :ATG) πͺ 874(-1), 912(-2), 920, 937(-2), 963 β To @(20+8 TAC) <> π΄ High Energy Collision 784, 884, 929 β To @(20+5 ATG)
π’ @871 (20+2 :CAT) πͺ 783(-2) β To @(20+22 GTA) <> π΄ High Energy Collision 865, 866, 879, 904, 938 β To @(20+2 CAT)
π’ @872 (203+2 :CAG) πͺ 818 β To @(5+6 GTC) <> π΄ High Energy Collision 959 β To @(203+2 CAG)
π° @874 (20+8 :TAC) πͺ 784(2), 870(-1), 884, 929(-1) β To @(20+5 ATG) <> π΄ High Energy Collision 912, 920, 937, 963 β To @(20+8 TAC)
π’ @875 (20+4 :GCT) πͺ 952 β To @(203+3 CGA)
π’ @876 (202+3 :GAG) πͺ 907, 926, 939 β To @(20+15 CTC) <> π΄ High Energy Collision 816, 821, 849, 869, 880...,917, 933, 942, 972 β To @(202+2, 202+3 GAA, GAG)
π° @877 (201+2 :AAC) πͺ 848(-1), 878(3), 968(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 799, 819, 846, 847, 864, 956 β To @(201+2 AAC)
π° @878 (5+3 :TTG) βπͺ Flow Figure8 + Opposites790, 799(-2), 814, 815(-2), 819(-2), 846(-3), 847(-2), 858, 864(-5), 877(3), 951(2), 956(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 848, 968 β To @(5+3 TTG)
π’ @879 (20+2 :CAT) πͺ 783 β To @(20+22 GTA) <> π΄ High Energy Collision 865, 866, 871, 904, 938, 971 β To @(20+2 CAT)
π· @880 (202+3 :GAG) πͺ 907, 926, 939(-2) β To @(20+15 CTC) <> π΄ High Energy Collision 816, 821, 849, 869, 876...,933, 942, 972, 978 β To @(202+2, 202+3 GAA, GAG)
π’ @882 (5+5 :TGG) β 818(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 891 β To @(5+5 TGG)
π· @883 (204+2 :GCA) πͺ 897 β To @(20+16 CGT) <> π΄ High Energy Collision 788, 813, 817, 860, 867, 925, 950 β To @(204+2 GCA)
π· @884 (20+5 :ATG) πͺ 874, 912, 920(-1), 937, 963 β To @(20+8 TAC) <> π΄ High Energy Collision 870, 929 β To @(20+5 ATG)
π· @885 (202+1 :AGG) πͺ 791(-3), 859(-1), 901 β To @(5+7 TCC) <> π΄ High Energy Collision 789, 835, 886, 909, 918 β To @(201+1 AAG)
π’ @886 (201+1 :AAG) πͺ 838(-2), 845(-2), 957 β To @(3+7 TTC) <> π΄ High Energy Collision 789, 835, 885, 909, 918 β To @(201+1, 202+1 AAG, AGG)
π· @890 (202+4 :GGA) πͺ 914(-1), 944, 965 β To @(3+8 CCT) <> π΄ High Energy Collision 797, 798, 801, 810, 820, 834, 894, 962 β To @(202+4 GGA)
π’ @891 (5+5 :TGG) β 818(-1) β To @(5+6 GTC) <> π΄ High Energy Collision 882 β To @(5+5 TGG)
π· @894 (202+4 :GGA) πͺ 914(-2), 944(-1), 965 β To @(3+8 CCT) <> π΄ High Energy Collision 797, 798, 801, 810, 820, 834, 890, 962 β To @(202+4 GGA)
π· @896 (20+19 :ACA) πͺ 827, 906(-2) β To @(5+2 TGT) <> π΄ High Energy Collision 843, 854, 908, 927, 928, 931, 970, 990 β To @(20+19 ACA)
π· @897 (20+16 :CGT) πͺ 813(-2), 817(-2), 860, 867, 883, 925(-1), 950 β To @(204+2 GCA)
π’ @898 (20+9 :TCA) πͺ 839 β To @(20+21 AGT) <> π΄ High Energy Collision 812 β To @(20+9 TCA)
π· @901 (5+7 :TCC) βπͺ Flow Figure8 + Opposites885, 983(-1) β To @(202+1, 5+8 ACC, AGG) <> π΄ High Energy Collision 859 β To @(5+7 TCC)
π’ @905 (203+4 :CCA) πͺ 806(-2), 831, 840(-2), 954(-2), 966(-2), 1002 β To @(20+25 GGT) <> π΄ High Energy Collision 807, 841, 850, 853, 855, 955, 967, 976, 981 β To @(203+4 CCA)
π° @906 (5+2 :TGT) πͺ 843(-1), 854(-6), 896(-2), 908(2), 927(-5), 928(-4), 931(-2), 970(-3), 990(-3) β To @(20+19 ACA) <> π΄ High Energy Collision 827 β To @(5+2 TGT)
π° @907 (20+15 :CTC) πͺ 876, 880, 911(2), 942, 984(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 926, 939, 982 β To @(20+15 CTC)
π° @908 (20+19 :ACA) πͺ 827(-2), 906(2) β To @(5+2 TGT) <> π΄ High Energy Collision 843, 854, 896, 927, 928, 931, 970, 990 β To @(20+19 ACA)
π’ @909 (201+1 :AAG) πͺ 838, 845, 957 β To @(3+7 TTC) <> π΄ High Energy Collision 835, 885, 886, 918, 1000, 1006 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π° @911 (202+3 :GAG) πͺ 907(2), 926, 939(-1), 982(-2), 1007(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 816, 821, 849, 869, 876...,978, 984, 997, 1009 β To @(202+2, 202+3 GAA, GAG)
π· @912 (20+8 :TAC) πͺ 870(-2), 884, 929(2) β To @(20+5 ATG) <> π΄ High Energy Collision 874, 920, 937, 963 β To @(20+8 TAC)
π° @913 (3+1 :TTA) π 836(6), 921(-4), 961(3), 989 β To @(3+2 AAT) <> π΄ High Energy Collision 923, 953 β To @(3+1 TTA)
π· @914 (3+8 :CCT) πͺπ Opposites + Structural Lock Key820(-2), 834(3), 838(3), 845, 890(-1), 894(-2), 957, 962(3) β To @(202+4, 3+7 GGA, TTC) <> π΄ High Energy Collision 944, 965 β To @(3+8 CCT)
π’ @918 (201+1 :AAG) πͺ 838, 845, 957 β To @(3+7 TTC) <> π΄ High Energy Collision 835, 885, 886, 909, 1000, 1006 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π° @920 (20+8 :TAC) πͺ 870, 884(-1), 929(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 874, 912, 937, 963 β To @(20+8 TAC)
π° @921 (3+2 :AAT) π 913(-4), 923(2), 953(-2) β To @(3+1 TTA) <> π΄ High Energy Collision 836, 961, 989 β To @(3+2 AAT)
π° @923 (3+1 :TTA) π 836(-2), 921(2), 961(-2), 989(-2) β To @(3+2 AAT) <> π΄ High Energy Collision 913, 953 β To @(3+1 TTA)
π· @925 (204+2 :GCA) πͺ 897(-1) β To @(20+16 CGT) <> π΄ High Energy Collision 860, 867, 883, 950, 1013 β To @(204+2 GCA)
π· @926 (20+15 :CTC) πͺ 876, 880, 911, 942, 984(-2), 1009(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 907, 939, 982, 1007, 1021 β To @(20+15 CTC)
π· @927 (20+19 :ACA) πͺ 906(-5) β To @(5+2 TGT) <> π΄ High Energy Collision 843, 854, 896, 908, 928, 931, 970, 990, 1014 β To @(20+19 ACA)
π· @928 (20+19 :ACA) πͺ 906(-4) β To @(5+2 TGT) <> π΄ High Energy Collision 843, 854, 896, 908, 927, 931, 970, 990, 1014 β To @(20+19 ACA)
π° @929 (20+5 :ATG) πͺ 874(-1), 912(2), 920(-2), 937, 963(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 870, 884 β To @(20+5 ATG)
π· @931 (20+19 :ACA) πͺ 906(-2) β To @(5+2 TGT) <> π΄ High Energy Collision 843, 854, 896, 908, 927, 928, 970, 990, 1014 β To @(20+19 ACA)
π° @936 (202+5 :GGC) πͺ 945 β To @(20+14 CCG)
π° @937 (20+8 :TAC) πͺ 870(-2), 884, 929 β To @(20+5 ATG) <> π΄ High Energy Collision 874, 912, 920, 963 β To @(20+8 TAC)
π° @939 (20+15 :CTC) πͺ 876, 880(-2), 911(-1), 942, 984(-2), 1009(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 907, 926, 982, 1007, 1021 β To @(20+15 CTC)
π° @942 (202+3 :GAG) πͺ 907, 926, 939, 982(-1), 1007(-1), 1021 β To @(20+15 CTC) <> π΄ High Energy Collision 849, 869, 876, 880, 888...,1025, 1029, 1037, 1041 β To @(202+2, 202+3 GAA, GAG)
π· @944 (3+8 :CCT) πͺπ Opposites + Structural Lock Key845, 890, 894(-1), 957, 962 β To @(202+4, 3+7 GGA, TTC) <> π΄ High Energy Collision 914, 965, 1023 β To @(3+8 CCT)
π° @945 (20+14 :CCG) πͺ 936 β To @(202+5 GGC)
π’ @946 (20+12 :TGC) πͺ 868, 1004 β To @(20+20 ACG)
π’ @950 (204+2 :GCA) πͺ 897 β To @(20+16 CGT) <> π΄ High Energy Collision 860, 867, 883, 925, 1013, 1039 β To @(204+2 GCA)
π° @951 (5+4 :GTT) βπͺ Flow Figure8 + Opposites862(-1), 878(2), 958, 960(3), 968, 974, 980, 1015(-1), 1026(-2), 1033(2), 1047(3) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 858, 1022, 1027 β To @(5+4 GTT)
π’ @952 (203+3 :CGA) πͺ 875, 987(3), 995, 1040(2), 1045(5) β To @(20+4 GCT) <> π΄ High Energy Collision 1036 β To @(203+3 CGA)
π° @953 (3+1 :TTA) π 921(-2), 961(4), 989(3), 1035, 1042(3) β To @(3+2 AAT) <> π΄ High Energy Collision 913, 923 β To @(3+1 TTA)
π° @954 (20+25 :GGT) πͺ 855, 905(-2), 955(4), 967(5), 976(-1), 981, 1019(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 966, 1002 β To @(20+25 GGT)
π° @955 (203+4 :CCA) πͺ 954(4), 966(6), 1002 β To @(20+25 GGT) <> π΄ High Energy Collision 905, 967, 976, 981, 1019 β To @(203+4 CCA)
π· @956 (201+2 :AAC) πͺ 878(-2), 968(6) β To @(5+3 TTG) <> π΄ High Energy Collision 864, 877, 992 β To @(201+2 AAC)
π° @957 (3+7 :TTC) πͺπ Opposites + Structural Lock Key886, 909, 914, 918, 944, 965(4), 1000(2), 1023(4), 1032(-2) β To @(201+1, 3+8 AAG, CCT)
π° @958 (203+1 :CAA) πͺ 951, 1022(4), 1027(-3) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 862, 960, 974, 980, 1015, 1017, 1026, 1033, 1047 β To @(203+1, 203+5 CAA, CGG)
π° @960 (203+1 :CAA) πͺ 951(3), 1022(5), 1027(-3) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 862, 958, 974, 980, 1015, 1017, 1026, 1033, 1047 β To @(203+1, 203+5 CAA, CGG)
π° @961 (3+2 :AAT) π 913(3), 923(-2), 953(4), 1053 β To @(3+1 TTA) <> π΄ High Energy Collision 921, 989, 1035, 1042 β To @(3+2 AAT)
π° @962 (202+4 :GGA) πͺ 914(3), 944, 965, 1023(3) β To @(3+8 CCT) <> π΄ High Energy Collision 890, 894, 1050 β To @(202+4 GGA)
π’ @963 (20+8 :TAC) πͺ 870, 884, 929(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 874, 912, 920, 937 β To @(20+8 TAC)
π° @965 (3+8 :CCT) πͺπ Opposites + Structural Lock Key890, 894, 957(4), 962, 1050 β To @(202+4, 3+7 GGA, TTC) <> π΄ High Energy Collision 914, 944, 1023 β To @(3+8 CCT)
π° @966 (20+25 :GGT) πͺ 905(-2), 955(6), 967(4), 976(-2), 981(-2), 1019(-2), 1055(-4), 1056(-4) β To @(203+4 CCA) <> π΄ High Energy Collision 954, 1002 β To @(20+25 GGT)
π° @967 (203+4 :CCA) πͺ 954(5), 966(4), 1002(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 905, 955, 976, 981, 1019, 1055, 1056 β To @(203+4 CCA)
π· @968 (5+3 :TTG) βπͺ Flow Figure8 + Opposites877(-2), 951, 956(6), 992, 1022(1), 1027(-2), 1063(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 878 β To @(5+3 TTG)
π’ @970 (20+19 :ACA) πͺ 906(-3) β To @(5+2 TGT) <> π΄ High Energy Collision 896, 908, 927, 928, 931, 990, 1014 β To @(20+19 ACA)
π· @974 (203+1 :CAA) πͺ 951, 1022, 1027(-2), 1063(-1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 958, 960, 980, 1015, 1017, 1026, 1033, 1047 β To @(203+1, 203+5 CAA, CGG)
π· @976 (203+4 :CCA) πͺ 954(-1), 966(-2), 1002 β To @(20+25 GGT) <> π΄ High Energy Collision 905, 955, 967, 981, 1019, 1055, 1056 β To @(203+4 CCA)
π· @980 (203+1 :CAA) πͺ 951, 1022(-1), 1027(-2), 1063(1) β To @(5+4 GTT) <> π΄π‘ High Energy Collision + Medium Energy Guidance 958, 960, 974, 1015, 1017, 1026, 1033, 1047 β To @(203+1, 203+5 CAA, CGG)
π· @981 (203+4 :CCA) πͺ 954, 966(-2), 1002 β To @(20+25 GGT) <> π΄ High Energy Collision 905, 955, 967, 976, 1019, 1055, 1056 β To @(203+4 CCA)
π° @982 (20+15 :CTC) πͺ 911(-2), 942(-1), 984(2), 1009(-2), 1065, 1067(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 907, 926, 939, 1007, 1021 β To @(20+15 CTC)
π’ @983 (5+8 :ACC) β 901(-1) β To @(5+7 TCC)
π° @984 (202+3 :GAG) πͺ 907(-2), 926(-2), 939(-2), 982(2), 1007(-2), 1021(-2) β To @(20+15 CTC) <> π΄ High Energy Collision 888, 895, 899, 911, 915...,1062, 1065, 1067, 1081 β To @(202+2, 202+3 GAA, GAG)
π’ @987 (20+4 :GCT) πͺ 952(3), 1036(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 995, 1040, 1045 β To @(20+4 GCT)
π’ @989 (3+2 :AAT) π 913, 923(-2), 953(3), 1053 β To @(3+1 TTA) <> π΄ High Energy Collision 921, 961, 1035, 1042 β To @(3+2 AAT)
π’ @990 (20+19 :ACA) πͺ 906(-3), 1087 β To @(5+2 TGT) <> π΄ High Energy Collision 896, 908, 927, 928, 931, 970, 1014, 1075, 1077, 1083 β To @(20+19 ACA)
π· @992 (201+2 :AAC) πͺ 968 β To @(5+3 TTG) <> π΄ High Energy Collision 956, 1074 β To @(201+2 AAC)
π’ @994 (5+5 :TGG) β 1086 β To @(5+6 GTC) <> π΄ High Energy Collision 1003, 1091 β To @(5+5 TGG)
π’ @995 (20+4 :GCT) πͺ 952, 1036(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 987, 1040, 1045 β To @(20+4 GCT)
π’ @1000 (201+1 :AAG) πͺ 957(2) β To @(3+7 TTC) <> π΄ High Energy Collision 909, 918, 1006, 1032, 1066 β To @(201+1, 201+5 AAG, GGG)
π· @1002 (20+25 :GGT) πͺ 905, 955, 967(-2), 976, 981, 1019, 1055, 1056 β To @(203+4 CCA) <> π΄ High Energy Collision 954, 966, 1101 β To @(20+25 GGT)
π’ @1003 (5+5 :TGG) β 1086 β To @(5+6 GTC) <> π΄ High Energy Collision 994, 1091 β To @(5+5 TGG)
π’ @1004 (20+20 :ACG) πͺ 946 β To @(20+12 TGC)
π° @1007 (20+15 :CTC) πͺ 911(-4), 942(-1), 984(-2), 1009(2), 1065(-4), 1067(-4) β To @(202+3 GAG) <> π΄ High Energy Collision 926, 939, 982, 1021 β To @(20+15 CTC)
π· @1008 (20+21 :AGT) πͺ 1018 β To @(20+9 TCA)
π° @1009 (202+3 :GAG) πͺ 926(-2), 939(-2), 982(-2), 1007(2), 1021 β To @(20+15 CTC) <> π΄ High Energy Collision 911, 915, 917, 933, 942...,1067, 1081, 1094, 1096 β To @(202+2, 202+3 GAA, GAG)
π° @1010 (20+13 :CAC) πͺ 1011(5) β To @(20+23 GTG) <> π΄ High Energy Collision 1060 β To @(20+13 CAC)
π° @1011 (20+23 :GTG) πͺ 1010(5), 1060(-5) β To @(20+13 CAC)
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