nuo-1 CDS
nuo-1 - NADH
Gene type: protein
organism=Caenorhabditis elegans
CDS - Protein coding sequences only (exons)
β 480 codons, 480 functional, 578 bonds
Pattern Distribution:
Pattern 3 (Structural (Simple)): 45 (9.4%)
Pattern 5 (Flow (Bonding)): 59 (12.3%)
Pattern 20 (Complex (Coordination)): 180 (37.5%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 31 (6.5%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 74 (15.4%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 38 (7.9%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 37 (7.7%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 16 (3.3%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)nuo-1 - NADH dehydrogenase [ubiquinone] flavoprotein 1, mitochondrial BETA Caenorhabditis elegans Gene name NADH dehydrogenase [ubiquinone] flavoprotein 1, mitochondrial Symbol nuo-1 Gene ID 174696 Locus tag CELE_C09H10.3 Organism Caenorhabditis elegans Gene type protein-coding Proteins 1 Transcripts 1 Refseq summary Predicted to enable several functions, including 4 iron, 4 sulfur cluster binding activity; NADH dehydrogenase (ubiquinone) activity; and nucleotide binding activity. Involved in several processes, including dauer exit; determination of adult lifespan; and inductive cell migration. Located in mitochondrion. Used to study mitochondrial complex I deficiency and mitochondrial metabolism disease. Human ortholog(s) of this gene implicated in nuclear type mitochondrial complex I deficiency 4. Orthologous to human NDUFV1 (NADH:ubiquinone oxidoreductase core subunit V1). [provided by Alliance of Genome Resources, Jul 2025]
Gaia's Grammar
Internal Bonds
Internal Guidance
Partner Bonds
Partner Guidance
π Geometry
Building Patterns
π Verbs
Action Flow
ποΈ Nouns
Structural Objects
π¨ Adjectives
Complex Descriptors
π€ Ready (+1)
Foundation Setting
β
Set (+2)
Coordination
π± Grow (+3)
Power Acceleration
π³ Grow On (+4)
Sustained Momentum
π² Grow Strong (+5)
Growth with authority
π£οΈ Gene Highway
Roadway for DNA
πβπ βπ§ βπ¨ π΅π― π΅π― πΈπ πΈπ₯ βπ ππ βπ§ πβ¬π βπ’ βπ° β¬πͺ ππΏ π𧬠βπ ββ°οΈ πππͺοΈ βπ βπ§ βπ π΅π β¬πͺ πΈπ βπ βπ βπ π΅π« ππΏ βπ π΅π₯ π𧬠βπ§ πππ± βπ ππ πππ± β¬β πππͺοΈ βπ βπ¨ βπ΅ β¬πͺ βπ πΈπ§ πππͺοΈ π΅πΌ, ββ‘ βπ₯ βπ¬ βπͺ βπ΅ πΈπ βπ πΈπ§ βπ βποΈ π΅π βποΈ βπ₯ βπ ππ² πΈπ§ ππ β¬πͺ π΅π« βπ βπ§ βπ¬ β¬πͺ π΅πΌ, πΈπ βπͺ¨ πππͺοΈ βπ€Έ πππͺοΈ β¬π βπͺ βπ° βπ’ ππ β¬πͺ πΈπ₯ βπ₯ πΈπ βπ° βπ β¬πͺ β¬π βπ ππ βπ― πΈπ₯ βποΈ βπ βπ¬ β¬πͺ ππ― β¬πͺ β¬πͺ π΅π« βποΈ βπ΅ ππ πΈπ β¬πͺ βπ πππͺοΈ πΈπ β¬πͺ βπ΅ βπ π𧬠ππ ππ βπ΅ βπ₯ β¬πͺ βπ¬ ββ°οΈ ππ βπ βπ πΈβ·οΈ πΈβ·οΈ π𧬠βπ§ βπ₯ β¬π β¬πͺ β¬β ππ β¬πͺ βπ― πΈπ― ππ βπ₯ βπ¬ β¬π βπ° βπ βπ¬ βπͺ¨ π΅πΌ, ππ βποΈ πππͺοΈ βπ βπͺ β¬π β¬πͺ βπ πΈπ§ βπͺ β¬πͺ β¬πͺ πΈβ·οΈ π΅π― βπ β¬πͺ βπ§ βπ¬ π΅π« π΅π« βπ βπ° ββ΅ βπͺ βπ¬ β¬πͺ β¬β βπ΅ ββ΅ βπ β¬π βπ§ πΈπ― βπ° βπ πππ± β¬β π΅π« βπͺ π𧬠β¬β π΅π« ββ΅ πππͺοΈ π΅π« β¬πͺ βπ βπ β¬πͺ ππ π΅πΌ, βπ βπ β¬πͺ βπ― β¬πͺ ββ΅ π𧬠ππ΅ π΅πΌ, πΈπ βπ΅ πΈβ·οΈ βποΈ βπ¬ β¬πͺ βπ§ β¬πͺ π΅π« ββ΅ βπ° βπ βποΈ β¬π β¬β βπ― βπ§ βπ βπ° β¬π βπ¨ βπ β¬π β¬πͺ πππͺοΈ πππ± β¬πͺ ππ ππ βπ¬ ββ πππͺοΈ βποΈ ππ βπ΅ ππ βπ§ π΅πΌ, βπ° β¬πͺ βπ βπ΅ βποΈ πΈπ― ππ βπ βπ― βπ πΈπ βπ πΈβ·οΈ β¬π βπ― βπ» βπ§ βπ βπ§ ππ βπ βπ° πΈπ― βπ¬ βπ¬ βποΈ βποΈ π΅πΌ, πΈπ βπ΅ βπ§ βπ¨ ππ΅ β¬πͺ βπ¬ β¬β ππ― βπ π΅π β¬πͺ πΈπ πππͺοΈ βπ βπ΅ βπ βπͺ πΈπ βποΈ πππ± πΈπ π𧬠βπ ππ βπ βπ€Έ πΈπ β¬π β¬π β¬β βπ πΈπ πΈβ·οΈ ππ πΈπ§ ππ βπ₯ βπ βπͺ β¬β βπ¬ βποΈ πΈπ― βποΈ β¬πͺ πΈπ βπͺ βποΈ β¬πͺ πΈπ βπ₯ π𧬠βπ βπ π΅π« βπͺ βπ° ππ β¬πͺ β¬πͺ πΈπ₯ πΈπ₯ πΈπ ππ βπ βπ ππ πππͺοΈ π𧬠πΈβ·οΈ βπ π΅πΌ, βπ πΈβ·οΈ βπ βπ βπ₯ βπ΅ βπ₯ π΅π« ββ πΈβ·οΈ βπ§ βπ§ πππ± πΈπ₯ βποΈ βπ β¬πͺ πΈπ π΅π« π΅π₯ πΈβ·οΈ βπ° βπ βπ π𧬠πππͺοΈ πππ± βπ― βπ₯ βπͺ πΈβ·οΈ ππ βπ βπͺ π΅π« ππ² πΈπ§ βπ βπ βπ΅ βπ ππ βπͺ¨ β¬π πΈπ₯ βπ β¬πͺ ππΏ πΈπ― βπ― ππ βπ βπ¬ β¬β β¬πͺ βπ βπ πΈπ πΈπ§ π𧬠πππͺοΈ βπ βπ πΈπ βπ¬ βπ΅ πΈβ·οΈ βπ₯ β¬πͺ ππ π΅π« πππͺοΈ ππ βπ¨ β¬β βπͺ βπ₯ βπ βπ πΈπ β¬π βπ ββ‘ ππ ππΏ βπͺ β¬β β¬πͺ βπͺ¨ βπ― βπ° πΈπ― βπ§ βπ β¬πͺ π΅πΌ, βπ§ βπ§ π΅π― πΈπ ππ πΈβ·οΈ ππΏ β¬πͺ βπ βπ° π΅π βπͺ¨ βπ΅ ππ² ππ β¬π βπ β¬π π΅π ππ² βπ π΅π« β¬β βπ΅ βπͺ¨ πππͺοΈ πππ± πΈβ·οΈ πΈπ§ π΅π« β¬β ππΏ β¬πͺ π΅π« πππͺοΈ ππΏ βπͺ ββ‘ πππ± βπ§
Gene Report
π¬ NUO-1_CDS
Function: β SYMMETRY BUILDER (Pentagon Geometry)
Total Codons: 480, Functional: 480
Pattern Distribution:
Pattern 3 (Structural (Simple)): 45 (9.4%)
Pattern 5 (Flow (Bonding)): 59 (12.3%)
Pattern 20 (Complex (Coordination)): 180 (37.5%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 31 (6.5%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 74 (15.4%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 38 (7.9%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 37 (7.7%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 16 (3.3%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
Flow/Structure Ratio: 1.31 - βοΈ Moderate flow structure balance
Folding Strategy: π COMPLEX FOLDING (Multi-domain coordination)
Bonding Sites: 578
Early bonds: 177 (avg distance: 54.2)
Middle bonds: 275 (avg distance: 48.5)
Late bonds: 126 (avg distance: 43.2)
π Protein Folding - Bond/Coordination Candidates:
π’ @2 (20+4 :GCT) πͺ 63 β To @(203+3 CGA) <> π΄ High Energy Collision 10, 21, 34, 69 β To @(20+4 GCT)
π’ @4 (204+2 :GCA) πͺ 51, 70(-1), 97 β To @(20+16 CGT) <> π΄ High Energy Collision 5 β To @(204+2 GCA)
π’ @5 (204+2 :GCA) πͺ 51, 70, 97(2) β To @(20+16 CGT) <> π΄ High Energy Collision 4 β To @(204+2 GCA)
π° @6 (5+6 :GTC) βπͺ Flow Figure8 + Opposites15, 30, 73(3), 86(-1) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 25 β To @(5+6 GTC)
π’ @7 (5+1 :TCT) πͺ 99(3) β To @(201+3 AGA) <> π΄ High Energy Collision 84, 94 β To @(5+1 TCT)
π’ @10 (20+4 :GCT) πͺ 63(2) β To @(203+3 CGA) <> π΄ High Energy Collision 2, 21, 34, 69 β To @(20+4 GCT)
π’ @11 (202+1 :AGG) πͺ 106 β To @(5+7 TCC) <> π΄ High Energy Collision 19, 40, 47, 75, 77, 109 β To @(201+1 AAG)
π’ @12 (20+17 :CTA) πͺ 50, 61(2), 85(-1) β To @(20+24 GAT) <> π΄ High Energy Collision 81 β To @(20+17 CTA)
π° @15 (203+2 :CAG) πͺ 6, 25(-3) β To @(5+6 GTC) <> π΄ High Energy Collision 30 β To @(203+2 CAG)
π’ @16 (201+2 :AAC) πͺ 46, 56, 64 β To @(5+3 TTG) <> π΄ High Energy Collision 33, 114 β To @(201+2 AAC)
π’ @17 (20+23 :GTG) πͺ 74(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 20, 22, 26, 36 β To @(20+23 GTG)
π· @19 (201+1 :AAG) πͺ 43, 53, 104, 112, 117 β To @(3+7 TTC) <> π΄ High Energy Collision 9, 11, 40, 47, 75, 77, 109 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π’ @20 (20+23 :GTG) πͺ 74(-2) β To @(20+13 CAC) <> π΄ High Energy Collision 17, 22, 26, 36 β To @(20+23 GTG)
π’ @21 (20+4 :GCT) πͺ 63 β To @(203+3 CGA) <> π΄ High Energy Collision 2, 10, 34, 69 β To @(20+4 GCT)
π’ @22 (20+23 :GTG) πͺ 74(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 17, 20, 26, 36 β To @(20+23 GTG)
π° @23 (204+5 :CGC) πͺ 32(2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 48, 59, 72 β To @(204+1, 204+5 CGC, GAC)
π° @25 (5+6 :GTC) βπͺ Flow Figure8 + Opposites15(-3), 30(2), 73(4), 86, 110(-2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 6 β To @(5+6 GTC)
π’ @26 (20+23 :GTG) πͺ 74(4) β To @(20+13 CAC) <> π΄ High Energy Collision 17, 20, 22, 36 β To @(20+23 GTG)
π· @28 (20+9 :TCA) πͺ 49 β To @(20+21 AGT)
π° @30 (203+2 :CAG) πͺ 6, 25(2) β To @(5+6 GTC) <> π΄ High Energy Collision 15 β To @(203+2 CAG)
π° @32 (204+3 :GCG) πͺ 23(2), 59(2) β To @(204+5 CGC)
π· @33 (201+2 :AAC) πͺ 46(-1), 56(-1), 64(4) β To @(5+3 TTG) <> π΄ High Energy Collision 16, 114, 127 β To @(201+2 AAC)
π· @34 (20+4 :GCT) πͺ 63(4) β To @(203+3 CGA) <> π΄ High Energy Collision 2, 10, 21, 69, 128 β To @(20+4 GCT)
π’ @35 (203+1 :CAA) πͺ 125, 126(-2) β To @(5+4 GTT) <> π΄ High Energy Collision 38 β To @(203+1 CAA)
π’ @36 (20+23 :GTG) πͺ 74(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 17, 20, 22, 26 β To @(20+23 GTG)
π’ @38 (203+1 :CAA) πͺ 125(6), 126(5) β To @(5+4 GTT) <> π΄ High Energy Collision 35 β To @(203+1 CAA)
π’ @39 (202+3 :GAG) πͺ 88(-2), 91(-3), 96, 124(7) β To @(20+15 CTC) <> π΄ High Energy Collision 78, 90, 130, 132 β To @(202+2, 202+3 GAA, GAG)
π° @40 (201+1 :AAG) πͺ 43, 53, 104, 112, 117 β To @(3+7 TTC) <> π΄ High Energy Collision 9, 11, 19, 47, 75, 77, 109 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π’ @41 (20+19 :ACA) πͺ 136 β To @(5+2 TGT) <> π΄ High Energy Collision 27 β To @(20+19 ACA)
π° @43 (3+7 :TTC) πͺ 19, 40, 47, 75, 77, 109(-2) β To @(201+1 AAG) <> π΄ High Energy Collision 53, 104, 112, 117 β To @(3+7 TTC)
π· @46 (5+3 :TTG) βπͺ Flow Figure8 + Opposites16, 33(-1), 114(2), 125, 126, 127 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 56, 64 β To @(5+3 TTG)
π° @47 (201+1 :AAG) πͺ 43, 53, 104, 112(3), 117(1) β To @(3+7 TTC) <> π΄ High Energy Collision 9, 11, 19, 40, 75, 77, 109 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π· @49 (20+21 :AGT) πͺ 28 β To @(20+9 TCA)
π’ @50 (20+24 :GAT) πͺ 12, 81(-1) β To @(20+17 CTA) <> π΄ High Energy Collision 61, 85, 118, 129, 138 β To @(20+24 GAT)
π’ @51 (20+16 :CGT) πͺ 4, 5 β To @(204+2 GCA) <> π΄ High Energy Collision 70, 97, 120, 139, 143 β To @(20+16 CGT)
π° @53 (3+7 :TTC) πͺ 19, 40, 47, 75, 77(-1), 109(2), 148(-1) β To @(201+1 AAG) <> π΄ High Energy Collision 43, 104, 112, 117 β To @(3+7 TTC)
π’ @54 (5+8 :ACC) β 106(-1) β To @(5+7 TCC)
π· @56 (5+3 :TTG) βπͺ Flow Figure8 + Opposites16, 33(-1), 114(2), 125(-1), 126, 127 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 46, 64, 154 β To @(5+3 TTG)
π’ @58 (20+25 :GGT) πͺ 105(-2), 116(2), 133, 146(-3) β To @(203+4 CCA) <> π΄ High Energy Collision 95, 103 β To @(20+25 GGT)
π· @59 (204+5 :CGC) πͺ 32(2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 23, 48, 72, 145 β To @(204+1, 204+5 CGC, GAC)
π· @61 (20+24 :GAT) πͺ 12(2), 81 β To @(20+17 CTA) <> π΄ High Energy Collision 50, 85, 118, 129, 138 β To @(20+24 GAT)
π° @63 (203+3 :CGA) πͺ 2, 10(2), 21, 34(4), 69, 128(8), 162 β To @(20+4 GCT)
π’ @64 (5+3 :TTG) βπͺ Flow Figure8 + Opposites16, 33(4), 114(-2), 125, 126(3), 127(4), 158(-1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 46, 56, 154 β To @(5+3 TTG)
π° @69 (20+4 :GCT) πͺ 63 β To @(203+3 CGA) <> π΄ High Energy Collision 2, 10, 21, 34, 128, 162 β To @(20+4 GCT)
π’ @70 (20+16 :CGT) πͺ 4(-1), 5, 159(-3) β To @(204+2 GCA) <> π΄ High Energy Collision 51, 97, 120, 139, 143, 163 β To @(20+16 CGT)
π’ @73 (5+5 :TGG) β 6(3), 25(4) β To @(5+6 GTC) <> π΄ High Energy Collision 86, 110 β To @(5+5 TGG)
π’ @74 (20+13 :CAC) πͺ 17(-1), 20(-2), 22(-1), 26(4), 36(-1) β To @(20+23 GTG) <> π΄ High Energy Collision 144 β To @(20+13 CAC)
π· @75 (201+1 :AAG) πͺ 43, 53, 104, 112, 117, 173 β To @(3+7 TTC) <> π΄ High Energy Collision 9, 11, 19, 40, 47, 77, 109, 148 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π’ @76 (20+20 :ACG) πͺ 153 β To @(20+12 TGC)
π· @77 (201+1 :AAG) πͺ 43, 53(-1), 104, 112, 117, 173(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 9, 11, 19, 40, 47, 75, 109, 148 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π° @81 (20+17 :CTA) πͺ 50(-1), 61, 85(-1), 118(-1), 129, 138(-2) β To @(20+24 GAT) <> π΄ High Energy Collision 12 β To @(20+17 CTA)
π· @84 (5+1 :TCT) βπͺ Flow Figure8 + Opposites99(-5), 136(-2), 178 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 7, 94 β To @(5+1 TCT)
π° @85 (20+24 :GAT) πͺ 12(-1), 81(-1) β To @(20+17 CTA) <> π΄ High Energy Collision 50, 61, 118, 129, 138 β To @(20+24 GAT)
π’ @86 (5+5 :TGG) β 6(-1), 25 β To @(5+6 GTC) <> π΄ High Energy Collision 73, 110 β To @(5+5 TGG)
π’ @88 (20+15 :CTC) πͺ 39(-2), 132(-5), 172(-4), 182(-2), 186(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 91, 96, 124, 149 β To @(20+15 CTC)
π’ @91 (20+15 :CTC) πͺ 39(-3), 132(-4), 172(-3), 182(-2), 186(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 88, 96, 124, 149 β To @(20+15 CTC)
π° @94 (5+1 :TCT) βπͺ Flow Figure8 + Opposites99, 136(-1), 178 β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 7, 84 β To @(5+1 TCT)
π· @95 (20+25 :GGT) πͺ 105(-2), 116, 133(4), 146 β To @(203+4 CCA) <> π΄ High Energy Collision 58, 103 β To @(20+25 GGT)
π’ @96 (20+15 :CTC) πͺ 39, 132(3), 172(-2), 182, 186 β To @(202+3 GAG) <> π΄ High Energy Collision 88, 91, 124, 149, 193 β To @(20+15 CTC)
π’ @97 (20+16 :CGT) πͺ 4, 5(2), 159(-2) β To @(204+2 GCA) <> π΄ High Energy Collision 51, 70, 120, 139, 143, 163, 170 β To @(20+16 CGT)
π° @99 (201+3 :AGA) πͺ 7(3), 84(-5), 94 β To @(5+1 TCT)
π° @103 (20+25 :GGT) πͺ 105(2), 116(-4), 133(-3), 146(1) β To @(203+4 CCA) <> π΄ High Energy Collision 58, 95 β To @(20+25 GGT)
π° @104 (3+7 :TTC) πͺ 19, 40, 47, 75, 77, 109, 148(2), 189(-1) β To @(201+1 AAG) <> π΄ High Energy Collision 43, 53, 112, 117, 173 β To @(3+7 TTC)
π° @105 (203+4 :CCA) πͺ 58(-2), 95(-2), 103(2) β To @(20+25 GGT) <> π΄ High Energy Collision 116, 133, 146 β To @(203+4 CCA)
π’ @106 (5+7 :TCC) βπͺ Flow Figure8 + Opposites11, 54(-1) β To @(202+1, 5+8 ACC, AGG)
π’ @108 (20+5 :ATG) πͺ 168, 174(4), 188(-2), 202(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 68, 113, 142, 160 β To @(20+5 ATG)
π° @109 (201+1 :AAG) πͺ 43(-2), 53(2), 104, 112(-3), 117, 173(4), 207(4) β To @(3+7 TTC) <> π΄ High Energy Collision 11, 19, 40, 47, 75, 77, 148, 189 β To @(201+1, 202+1 AAG, AGG)
π’ @110 (5+5 :TGG) β 25(-2), 206(3) β To @(5+6 GTC) <> π΄ High Energy Collision 73, 86 β To @(5+5 TGG)
π° @112 (3+7 :TTC) πͺ 19, 40, 47(3), 75, 77, 109(-3), 148, 189(3) β To @(201+1 AAG) <> π΄ High Energy Collision 43, 53, 104, 117, 173, 207 β To @(3+7 TTC)
π’ @113 (20+5 :ATG) πͺ 168, 174(-2), 188(4), 202(-3) β To @(20+8 TAC) <> π΄ High Energy Collision 68, 108, 142, 160 β To @(20+5 ATG)
π’ @114 (201+2 :AAC) πͺ 46(2), 56(2), 64(-2), 154 β To @(5+3 TTG) <> π΄ High Energy Collision 16, 33, 127, 185, 203 β To @(201+2 AAC)
π· @116 (203+4 :CCA) πͺ 58(2), 95, 103(-4) β To @(20+25 GGT) <> π΄ High Energy Collision 105, 133, 146 β To @(203+4 CCA)
π° @117 (3+7 :TTC) πͺ 19, 40, 47(1), 75, 77, 109, 148(-1), 189 β To @(201+1 AAG) <> π΄ High Energy Collision 43, 53, 104, 112, 173, 207 β To @(3+7 TTC)
π’ @118 (20+24 :GAT) πͺ 81(-1) β To @(20+17 CTA) <> π΄ High Energy Collision 50, 61, 85, 129, 138 β To @(20+24 GAT)
π’ @120 (20+16 :CGT) πͺ 159(-2) β To @(204+2 GCA) <> π΄ High Energy Collision 51, 70, 97, 139, 143, 163, 170, 210 β To @(20+16 CGT)
π° @124 (20+15 :CTC) πͺ 39(7), 132, 172, 182(7), 186, 220 β To @(202+3 GAG) <> π΄ High Energy Collision 88, 91, 96, 149, 193, 198 β To @(20+15 CTC)
π· @125 (5+4 :GTT) βπͺ Flow Figure8 + Opposites35, 38(6), 46, 56(-1), 64, 154, 181(4) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 126, 158, 208 β To @(5+4 GTT)
π· @126 (5+4 :GTT) βπͺ Flow Figure8 + Opposites35(-2), 38(5), 46, 56, 64(3), 154, 181(3) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 125, 158, 208 β To @(5+4 GTT)
π· @127 (201+2 :AAC) πͺ 46, 56, 64(4), 154 β To @(5+3 TTG) <> π΄ High Energy Collision 33, 114, 185, 203 β To @(201+2 AAC)
π’ @128 (20+4 :GCT) πͺ 63(8) β To @(203+3 CGA) <> π΄ High Energy Collision 34, 69, 162, 177, 212, 222 β To @(20+4 GCT)
π’ @129 (20+24 :GAT) πͺ 81 β To @(20+17 CTA) <> π΄ High Energy Collision 50, 61, 85, 118, 138 β To @(20+24 GAT)
π° @132 (202+3 :GAG) πͺ 88(-5), 91(-4), 96(3), 124, 149(-2), 193(-4), 198(-3), 227(-6) β To @(20+15 CTC) <> π΄ High Energy Collision 39, 78, 90, 130, 140...,219, 220, 225, 228 β To @(202+2, 202+3 GAA, GAG)
π’ @133 (203+4 :CCA) πͺ 58, 95(4), 103(-3), 218(-3) β To @(20+25 GGT) <> π΄ High Energy Collision 105, 116, 146 β To @(203+4 CCA)
π’ @136 (5+2 :TGT) βπͺ Flow Figure8 + Opposites41, 84(-2), 94(-1) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 178 β To @(5+2 TGT)
π’ @138 (20+24 :GAT) πͺ 81(-2) β To @(20+17 CTA) <> π΄ High Energy Collision 50, 61, 85, 118, 129 β To @(20+24 GAT)
π· @139 (20+16 :CGT) πͺ 159 β To @(204+2 GCA) <> π΄ High Energy Collision 51, 70, 97, 120, 143, 163, 170, 210, 235 β To @(20+16 CGT)
π· @142 (20+5 :ATG) πͺ 168(-3), 174, 188, 202, 215(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 68, 108, 113, 160 β To @(20+5 ATG)
π· @143 (20+16 :CGT) πͺ 159(-2) β To @(204+2 GCA) <> π΄ High Energy Collision 51, 70, 97, 120, 139, 163, 170, 210, 235 β To @(20+16 CGT)
π’ @145 (204+1 :GAC) πͺ 236(-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 48, 59, 65, 72, 82...,196, 205, 233, 243 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @146 (203+4 :CCA) πͺ 58(-3), 95, 103(1), 218 β To @(20+25 GGT) <> π΄ High Energy Collision 105, 116, 133, 234, 239, 241 β To @(203+4 CCA)
π· @148 (201+1 :AAG) πͺ 53(-1), 104(2), 112, 117(-1), 173(4), 207(-1), 240(-2), 247 β To @(3+7 TTC) <> π΄ High Energy Collision 75, 77, 109, 189, 230, 237 β To @(201+1 AAG)
π· @149 (20+15 :CTC) πͺ 132(-2), 172(2), 182(-3), 186(-3), 220(-2) β To @(202+3 GAG) <> π΄ High Energy Collision 88, 91, 96, 124, 193, 198, 227 β To @(20+15 CTC)
π’ @152 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 66, 71, 83, 89, 98...,213, 229, 232, 245 β To @(202+4 GGA)
π’ @153 (20+12 :TGC) πͺ 76 β To @(20+20 ACG) <> π΄ High Energy Collision 197, 217 β To @(20+12 TGC)
π° @154 (5+3 :TTG) βπͺ Flow Figure8 + Opposites114, 125, 126, 127, 158(-2), 185(-2), 203, 208 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 56, 64 β To @(5+3 TTG)
π’ @156 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 66, 71, 83, 89, 98...,213, 229, 232, 245 β To @(202+4 GGA)
π’ @157 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 66, 71, 83, 89, 98...,213, 229, 232, 245 β To @(202+4 GGA)
π° @158 (5+4 :GTT) βπͺ Flow Figure8 + Opposites64(-1), 154(-2), 181, 231(-4) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 125, 126, 208, 256 β To @(5+4 GTT)
π° @159 (204+2 :GCA) πͺ 70(-3), 97(-2), 120(-2), 139, 143(-2), 163, 170(1), 210(-3), 235 β To @(20+16 CGT)
π° @160 (20+5 :ATG) πͺ 168(3), 174, 188, 202(-2), 215(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 68, 108, 113, 142 β To @(20+5 ATG)
π’ @161 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 66, 71, 83, 89, 98...,213, 229, 232, 245 β To @(202+4 GGA)
π’ @162 (20+4 :GCT) πͺ 63 β To @(203+3 CGA) <> π΄ High Energy Collision 69, 128, 177, 212, 222, 242, 260 β To @(20+4 GCT)
π° @163 (20+16 :CGT) πͺ 159 β To @(204+2 GCA) <> π΄ High Energy Collision 70, 97, 120, 139, 143, 170, 210, 235 β To @(20+16 CGT)
π° @168 (20+8 :TAC) πͺ 108, 113, 142(-3), 160(3) β To @(20+5 ATG) <> π΄ High Energy Collision 174, 188, 202, 215 β To @(20+8 TAC)
π· @170 (20+16 :CGT) πͺ 159(1) β To @(204+2 GCA) <> π΄ High Energy Collision 97, 120, 139, 143, 163, 210, 235, 267, 268 β To @(20+16 CGT)
π’ @171 (202+4 :GGA) πͺ 238(3) β To @(3+8 CCT) <> π΄ High Energy Collision 83, 89, 98, 100, 101...,213, 229, 232, 245 β To @(202+4 GGA)
π· @172 (202+3 :GAG) πͺ 88(-4), 91(-3), 96(-2), 124, 149(2), 193(-3), 198(-2), 227(-5) β To @(20+15 CTC) <> π΄ High Energy Collision 78, 90, 130, 132, 140...,220, 225, 228, 257 β To @(202+2, 202+3 GAA, GAG)
π· @173 (3+7 :TTC) πͺπ Opposites + Structural Lock Key75, 77(-2), 109(4), 148(4), 189(-2), 230, 237(3), 238(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 104, 112, 117, 207, 240, 247 β To @(3+7 TTC)
π· @174 (20+8 :TAC) πͺ 108(4), 113(-2), 142, 160 β To @(20+5 ATG) <> π΄ High Energy Collision 168, 188, 202, 215 β To @(20+8 TAC)
π’ @178 (5+2 :TGT) βπͺ Flow Figure8 + Opposites84, 94, 251(-2), 264(-5) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 136, 249, 266 β To @(5+2 TGT)
π· @181 (203+1 :CAA) πͺ 125(4), 126(3), 158, 208, 256(-2) β To @(5+4 GTT) <> π΄ High Energy Collision 231 β To @(203+1 CAA)
π· @182 (202+3 :GAG) πͺ 88(-2), 91(-2), 96, 124(7), 149(-3), 193, 198, 227(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 90, 130, 132, 140, 151...,225, 228, 257, 279 β To @(202+2, 202+3 GAA, GAG)
π’ @185 (201+2 :AAC) πͺ 154(-2) β To @(5+3 TTG) <> π΄ High Energy Collision 114, 127, 203 β To @(201+2 AAC)
π° @186 (202+3 :GAG) πͺ 88(-2), 91(-2), 96, 124, 149(-3), 193, 198, 227(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 90, 130, 132, 140, 151...,225, 228, 257, 279 β To @(202+2, 202+3 GAA, GAG)
π· @188 (20+8 :TAC) πͺ 108(-2), 113(4), 142, 160 β To @(20+5 ATG) <> π΄ High Energy Collision 168, 174, 202, 215 β To @(20+8 TAC)
π· @189 (201+1 :AAG) πͺ 104(-1), 112(3), 117, 173(-2), 207, 240(2), 247, 273, 287(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 109, 148, 230, 237, 285 β To @(201+1 AAG)
π’ @191 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 98, 100, 101, 107, 111...,232, 245, 277, 283 β To @(202+4 GGA)
π° @193 (20+15 :CTC) πͺ 132(-4), 172(-3), 182, 186, 220, 279(-1) β To @(202+3 GAG) <> π΄ High Energy Collision 96, 124, 149, 198, 227 β To @(20+15 CTC)
π’ @194 (202+4 :GGA) πͺ 238(2) β To @(3+8 CCT) <> π΄ High Energy Collision 98, 100, 101, 107, 111...,232, 245, 277, 283 β To @(202+4 GGA)
π’ @196 (204+1 :GAC) πͺ 236(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+1 115, 122, 137, 145, 195, 205, 233, 243, 271, 282 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @198 (20+15 :CTC) πͺ 132(-3), 172(-2), 182, 186, 220(-1), 279(-1) β To @(202+3 GAG) <> π΄ High Energy Collision 124, 149, 193, 227 β To @(20+15 CTC)
π’ @199 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 100, 101, 107, 111, 119...,232, 245, 277, 283 β To @(202+4 GGA)
π’ @201 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 107, 111, 119, 131, 134...,232, 245, 277, 283 β To @(202+4 GGA)
π’ @202 (20+8 :TAC) πͺ 108(-2), 113(-3), 142, 160(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 168, 174, 188, 215 β To @(20+8 TAC)
π’ @203 (201+2 :AAC) πͺ 154 β To @(5+3 TTG) <> π΄ High Energy Collision 114, 127, 185, 294 β To @(201+2 AAC)
π’ @205 (204+1 :GAC) πͺ 236(5) 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+1 115, 122, 137, 145, 195, 196, 233, 243, 271, 282 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @206 (5+6 :GTC) β 110(3), 272(-4) β To @(5+5 TGG) <> π΄ High Energy Collision 293, 299 β To @(5+6 GTC)
π· @207 (3+7 :TTC) πͺπ Opposites + Structural Lock Key109(4), 148(-1), 189, 230(4), 237(3), 238, 285(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 112, 117, 173, 240, 247, 273, 287 β To @(3+7 TTC)
π· @208 (5+4 :GTT) βπͺ Flow Figure8 + Opposites154, 181, 231(4), 292(-1), 307(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 125, 126, 158, 256, 305 β To @(5+4 GTT)
π’ @209 (20+2 :CAT) πͺ 259 β To @(20+22 GTA) <> π΄ High Energy Collision 147 β To @(20+2 CAT)
π’ @210 (20+16 :CGT) πͺ 159(-3) β To @(204+2 GCA) <> π΄ High Energy Collision 120, 139, 143, 163, 170, 235, 267, 268, 278 β To @(20+16 CGT)
π· @211 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 119, 131, 134, 152, 156...,232, 245, 277, 283 β To @(202+4 GGA)
π· @213 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 119, 131, 134, 152, 156...,232, 245, 277, 283 β To @(202+4 GGA)
π’ @215 (20+8 :TAC) πͺ 142(-2), 160(-1), 303 β To @(20+5 ATG) <> π΄ High Energy Collision 168, 174, 188, 202 β To @(20+8 TAC)
π’ @217 (20+12 :TGC) πͺ 298(1) β To @(20+20 ACG) <> π΄ High Energy Collision 153, 197, 288, 297 β To @(20+12 TGC)
π· @218 (20+25 :GGT) πͺ 133(-3), 146, 234, 239, 241, 250(-2), 263, 296(1), 306 β To @(203+4 CCA) <> π΄ High Energy Collision 248, 269, 270, 291, 316 β To @(20+25 GGT)
π° @220 (202+3 :GAG) πͺ 124, 149(-2), 193, 198(-1), 227(-7) β To @(20+15 CTC) <> π΄ High Energy Collision 130, 132, 140, 151, 172...,300, 301, 302, 312 β To @(202+2, 202+3 GAA, GAG)
π° @227 (20+15 :CTC) πͺ 132(-6), 172(-5), 182(-4), 186(-4), 220(-7), 279(-4), 302(-8), 312(-4) β To @(202+3 GAG) <> π΄ High Energy Collision 149, 193, 198 β To @(20+15 CTC)
π° @229 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 131, 134, 152, 156, 157...,277, 283, 317, 321 β To @(202+4 GGA)
π· @230 (201+1 :AAG) πͺ 173, 207(4), 240(5), 247(-1), 273, 287(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 148, 189, 237, 285 β To @(201+1 AAG)
π· @231 (203+1 :CAA) πͺ 158(-4), 208(4), 256, 305 β To @(5+4 GTT) <> π΄ High Energy Collision 181, 292 β To @(203+1 CAA)
π° @232 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 134, 152, 156, 157, 161...,283, 317, 321, 331 β To @(202+4 GGA)
π· @234 (203+4 :CCA) πͺ 218, 248(-2), 269(-2), 270, 291, 316(-1), 320(-1) β To @(20+25 GGT) <> π΄ High Energy Collision 146, 239, 241, 250, 263, 296, 306, 330 β To @(203+4 CCA)
π’ @235 (20+16 :CGT) πͺ 159 β To @(204+2 GCA) <> π΄ High Energy Collision 139, 143, 163, 170, 210, 267, 268, 278, 313 β To @(20+16 CGT)
π° @236 (20+1 :CTG) πͺ 145(-2), 196(2), 205(5), 243(5), 271(10) β To @(204+1 GAC)
π° @237 (201+1 :AAG) πͺ 173(3), 207(3), 240(-1), 247(8), 273(4), 287(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 148, 189, 230, 285 β To @(201+1 AAG)
π° @238 (3+8 :CCT) πͺπ Opposites + Structural Lock Key152, 156, 157(1), 161(1), 171(3), 173(-2), 191(1), 194(2), 199(1), 201, 207, 211, 213, 229(1), 232, 240(1), 245(5), 247(2), 273(2), 277, 283(1), 287(-1), 317(4), 321(4), 331(-2), 332(-1) β To @(202+4, 3+7 GGA, TTC)
π° @239 (203+4 :CCA) πͺ 218, 248(5), 269(4), 270(5), 291, 316(4), 320(6) β To @(20+25 GGT) <> π΄ High Energy Collision 146, 234, 241, 250, 263, 296, 306, 330, 336 β To @(203+4 CCA)
π° @240 (3+7 :TTC) πͺπ Opposites + Structural Lock Key148(-2), 189(2), 230(5), 237(-1), 238(1), 285(3) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 173, 207, 247, 273, 287 β To @(3+7 TTC)
π° @241 (203+4 :CCA) πͺ 218, 248(-2), 269(3), 270(2), 291, 316(2), 320(2) β To @(20+25 GGT) <> π΄ High Energy Collision 146, 234, 239, 250, 263, 296, 306, 330, 336, 339 β To @(203+4 CCA)
π° @243 (204+1 :GAC) πͺ 236(5) 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+1 145, 195, 196, 205, 233, 271, 282, 308 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π° @245 (202+4 :GGA) πͺ 238(5) β To @(3+8 CCT) <> π΄ High Energy Collision 152, 156, 157, 161, 171...,317, 321, 331, 332 β To @(202+4 GGA)
π° @247 (3+7 :TTC) πͺπ Opposites + Structural Lock Key148, 189, 230(-1), 237(8), 238(2), 285(-4), 340(4) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 173, 207, 240, 273, 287 β To @(3+7 TTC)
π° @248 (20+25 :GGT) πͺ 234(-2), 239(5), 241(-2), 250(6), 263(2), 296(-2), 306(-2), 330(-2), 336(2), 339(2) β To @(203+4 CCA) <> π΄ High Energy Collision 218, 269, 270, 291, 316, 320 β To @(20+25 GGT)
π° @249 (5+2 :TGT) βπͺ Flow Figure8 + Opposites251(8), 264, 333(2), 334(2), 345(-2) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 178, 266, 315 β To @(5+2 TGT)
π° @250 (203+4 :CCA) πͺ 218(-2), 248(6), 269(-1), 270(-3), 291(-2), 316, 320(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 234, 239, 241, 263, 296, 306, 330, 336, 339 β To @(203+4 CCA)
π° @251 (20+19 :ACA) πͺ 178(-2), 249(8), 266(-2), 315(2) β To @(5+2 TGT) <> π΄ High Energy Collision 264, 345 β To @(20+19 ACA)
π’ @254 (5+8 :ACC) β 290(2), 304(-1) β To @(5+7 TCC) <> π΄ High Energy Collision 284 β To @(5+8 ACC)
π· @256 (5+4 :GTT) βπͺ Flow Figure8 + Opposites181(-2), 231, 292(2), 307(-1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 158, 208, 305, 342, 346, 354 β To @(5+4 GTT)
π’ @259 (20+22 :GTA) πͺ 209, 314 β To @(20+2 CAT)
π° @263 (203+4 :CCA) πͺ 218, 248(2), 269(2), 270, 291, 316(4), 320, 359 β To @(20+25 GGT) <> π΄ High Energy Collision 234, 239, 241, 250, 296, 306, 330, 336, 339 β To @(203+4 CCA)
π° @264 (20+19 :ACA) πͺ 178(-5), 249, 266(2), 315(2) β To @(5+2 TGT) <> π΄ High Energy Collision 251, 345 β To @(20+19 ACA)
π° @266 (5+2 :TGT) βπͺ Flow Figure8 + Opposites251(-2), 264(2), 333, 334, 345(-2), 358(2) β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 178, 249, 315 β To @(5+2 TGT)
π° @269 (20+25 :GGT) πͺ 234(-2), 239(4), 241(3), 250(-1), 263(2), 296, 306, 330, 336(1), 339(2) β To @(203+4 CCA) <> π΄ High Energy Collision 218, 248, 270, 291, 316, 320, 359 β To @(20+25 GGT)
π° @270 (20+25 :GGT) πͺ 234, 239(5), 241(2), 250(-3), 263, 296(1), 306(-1), 330, 336(3), 339(2) β To @(203+4 CCA) <> π΄ High Energy Collision 218, 248, 269, 291, 316, 320, 359 β To @(20+25 GGT)
π’ @271 (204+1 :GAC) πͺ 236(10), 353 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+1 195, 196, 205, 233, 243, 282, 308, 344 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @272 (5+5 :TGG) β 206(-4), 293, 299(1), 318, 335(5) β To @(5+6 GTC) <> π΄ High Energy Collision 322 β To @(5+5 TGG)
π· @273 (3+7 :TTC) πͺπ Opposites + Structural Lock Key189, 230, 237(4), 238(2), 285(-2), 340(2), 370 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 207, 240, 247, 287, 350 β To @(3+7 TTC)
π’ @277 (202+4 :GGA) πͺ 238 β To @(3+8 CCT) <> π΄ High Energy Collision 191, 194, 199, 201, 211...,321, 331, 332, 361 β To @(202+4 GGA)
π’ @279 (202+3 :GAG) πͺ 193(-1), 198(-1), 227(-4), 347 β To @(20+15 CTC) <> π΄ High Energy Collision 182, 186, 219, 220, 225...,300, 301, 302, 312 β To @(202+2, 202+3 GAA, GAG)
π’ @280 (201+3 :AGA) πͺ 333, 334, 358 β To @(5+1 TCT)
π’ @282 (204+5 :CGC) πͺ 364 β To @(204+3 GCG) <> π‘ Medium Energy Guidance 196, 205, 243, 271, 344 β To @(204+1 GAC)
π’ @283 (202+4 :GGA) πͺ 238(1) β To @(3+8 CCT) <> π΄ High Energy Collision 191, 194, 199, 201, 211...,321, 331, 332, 361 β To @(202+4 GGA)
π° @284 (5+8 :ACC) β 290(2), 304 β To @(5+7 TCC) <> π΄ High Energy Collision 254, 362 β To @(5+8 ACC)
π° @285 (201+1 :AAG) πͺ 207(-2), 240(3), 247(-4), 273(-2), 287(2), 350(-2), 384(-4) β To @(3+7 TTC) <> π΄ High Energy Collision 189, 230, 237, 340, 370 β To @(201+1 AAG)
π° @287 (3+7 :TTC) πͺπ Opposites + Structural Lock Key189(-2), 230(-2), 237(-2), 238(-1), 285(2), 340(-2), 370(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 207, 240, 247, 273, 350, 384 β To @(3+7 TTC)
π· @288 (20+12 :TGC) πͺ 298(-2) β To @(20+20 ACG) <> π΄ High Energy Collision 197, 217, 297, 343, 377 β To @(20+12 TGC)
π° @290 (5+7 :TCC) β 254(2), 284(2), 362 β To @(5+8 ACC) <> π΄ High Energy Collision 304 β To @(5+7 TCC)
π° @291 (20+25 :GGT) πͺ 234, 239, 241, 250(-2), 263, 296(1), 306(3), 330, 336(-1), 339 β To @(203+4 CCA) <> π΄ High Energy Collision 218, 248, 269, 270, 316, 320, 359 β To @(20+25 GGT)
π· @292 (203+1 :CAA) πͺ 208(-1), 256(2), 305(5), 342(1), 346, 354, 365(1), 375 β To @(5+4 GTT) <> π΄ High Energy Collision 231, 357, 371 β To @(203+1 CAA)
π· @293 (5+6 :GTC) βπͺ Flow Figure8 + Opposites272, 322(-1), 392 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 206, 299, 318, 335 β To @(5+6 GTC)
π· @294 (201+2 :AAC) πͺ 307(3), 381 β To @(5+3 TTG) <> π΄ High Energy Collision 203, 324, 341, 369 β To @(201+2 AAC)
π° @296 (203+4 :CCA) πͺ 218(1), 248(-2), 269, 270(1), 291(1), 316, 320(1), 359 β To @(20+25 GGT) <> π΄ High Energy Collision 234, 239, 241, 250, 263, 306, 330, 336, 339, 395 β To @(203+4 CCA)
π° @297 (20+12 :TGC) πͺ 298(4) β To @(20+20 ACG) <> π΄ High Energy Collision 217, 288, 343, 377, 390, 396 β To @(20+12 TGC)
π° @298 (20+20 :ACG) πͺ 217(1), 288(-2), 297(4), 343(-2), 377(-2), 390(1), 396(-3) β To @(20+12 TGC)
π· @299 (5+6 :GTC) βπͺ Flow Figure8 + Opposites272(1), 322(1), 392(3) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 206, 293, 318, 335 β To @(5+6 GTC)
π’ @302 (202+3 :GAG) πͺ 227(-8), 347(-2) β To @(20+15 CTC) <> π΄ High Energy Collision 219, 220, 225, 228, 257...,301, 312, 388, 398 β To @(202+2, 202+3 GAA, GAG)
π’ @303 (20+5 :ATG) πͺ 215 β To @(20+8 TAC) <> π΄ High Energy Collision 338, 348, 368 β To @(20+5 ATG)
π· @304 (5+7 :TCC) β 254(-1), 284, 362(1) β To @(5+8 ACC) <> π΄ High Energy Collision 290 β To @(5+7 TCC)
π° @305 (5+4 :GTT) βπͺ Flow Figure8 + Opposites231, 292(5), 307(2), 357(4), 371(2), 381(-2), 403(1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 208, 256, 342, 346, 354, 365, 375 β To @(5+4 GTT)
π· @306 (203+4 :CCA) πͺ 218, 248(-2), 269, 270(-1), 291(3), 316, 320, 359(3) β To @(20+25 GGT) <> π΄ High Energy Collision 234, 239, 241, 250, 263, 296, 330, 336, 339, 395 β To @(203+4 CCA)
π° @307 (5+3 :TTG) βπͺ Flow Figure8 + Opposites208(-2), 256(-1), 294(3), 305(2), 324(-1), 341(-2), 342(-3), 346(-3), 354(-2), 365(-2), 369(2), 375(-4), 404(1) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 381, 403 β To @(5+3 TTG)
π’ @312 (202+3 :GAG) πͺ 227(-4), 347 β To @(20+15 CTC) <> π΄ High Energy Collision 219, 220, 225, 228, 257...,301, 302, 388, 398 β To @(202+2, 202+3 GAA, GAG)
π’ @314 (20+2 :CAT) πͺ 259 β To @(20+22 GTA)
π· @315 (5+2 :TGT) βπͺ Flow Figure8 + Opposites251(2), 264(2), 333(1), 334(3), 345(1), 358(-2), 389 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 249, 266, 393 β To @(5+2 TGT)
π· @316 (20+25 :GGT) πͺ 234(-1), 239(4), 241(2), 250, 263(4), 296, 306, 330(-3), 336(4), 339, 395 β To @(203+4 CCA) <> π΄ High Energy Collision 218, 248, 269, 270, 291, 320, 359 β To @(20+25 GGT)
π’ @317 (202+4 :GGA) πͺ 238(4) β To @(3+8 CCT) <> π΄ High Energy Collision 229, 232, 245, 277, 283...,361, 391, 399, 413 β To @(202+4 GGA)
π° @318 (5+6 :GTC) βπͺ Flow Figure8 + Opposites272, 322(-2), 392(-2), 402, 408 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 293, 299, 335 β To @(5+6 GTC)
π· @320 (20+25 :GGT) πͺ 234(-1), 239(6), 241(2), 250(-2), 263, 296(1), 306, 330(-4), 336(2), 339, 395(1), 417 β To @(203+4 CCA) <> π΄ High Energy Collision 248, 269, 270, 291, 316, 359 β To @(20+25 GGT)
π’ @321 (202+4 :GGA) πͺ 238(4) β To @(3+8 CCT) <> π΄ High Energy Collision 229, 232, 245, 277, 283...,361, 391, 399, 413 β To @(202+4 GGA)
π° @322 (5+5 :TGG) β 293(-1), 299(1), 318(-2), 335(3) β To @(5+6 GTC) <> π΄ High Energy Collision 272, 402, 408 β To @(5+5 TGG)
π· @324 (201+2 :AAC) πͺ 307(-1), 381(-1), 403(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 294, 341, 369, 404 β To @(201+2 AAC)
π· @330 (203+4 :CCA) πͺ 248(-2), 269, 270, 291, 316(-3), 320(-4), 359(-1) β To @(20+25 GGT) <> π΄ High Energy Collision 234, 239, 241, 250, 263...,336, 339, 395, 417 β To @(203+4 CCA)
π’ @331 (202+4 :GGA) πͺ 238(-2) β To @(3+8 CCT) <> π΄ High Energy Collision 232, 245, 277, 283, 317...,361, 391, 399, 413 β To @(202+4 GGA)
π’ @332 (202+4 :GGA) πͺ 238(-1) β To @(3+8 CCT) <> π΄ High Energy Collision 245, 277, 283, 317, 321, 331, 361, 391, 399, 413 β To @(202+4 GGA)
π· @333 (5+1 :TCT) βπͺ Flow Figure8 + Opposites249(2), 266, 280, 315(1), 393(2) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 334, 358, 389 β To @(5+1 TCT)
π· @334 (5+1 :TCT) βπͺ Flow Figure8 + Opposites249(2), 266, 280, 315(3), 393(4) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 333, 358, 389 β To @(5+1 TCT)
π· @335 (5+6 :GTC) βπͺ Flow Figure8 + Opposites272(5), 322(3), 392(7), 402, 408, 424, 429 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 293, 299, 318 β To @(5+6 GTC)
π· @336 (203+4 :CCA) πͺ 248(2), 269(1), 270(3), 291(-1), 316(4), 320(2), 359(-3) β To @(20+25 GGT) <> π΄ High Energy Collision 239, 241, 250, 263, 296, 306, 330, 339, 395, 417 β To @(203+4 CCA)
π· @339 (203+4 :CCA) πͺ 248(2), 269(2), 270(2), 291, 316, 320, 359(-1) β To @(20+25 GGT) <> π΄ High Energy Collision 241, 250, 263, 296, 306, 330, 336, 395, 417 β To @(203+4 CCA)
π· @340 (201+1 :AAG) πͺ 247(4), 273(2), 287(-2), 350, 384(3), 410(-1) β To @(3+7 TTC) <> π΄ High Energy Collision 285, 370, 405, 416 β To @(201+1 AAG)
π’ @341 (201+2 :AAC) πͺ 307(-2), 381, 403(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 294, 324, 369, 404 β To @(201+2 AAC)
π· @342 (5+4 :GTT) βπͺ Flow Figure8 + Opposites292(1), 307(-3), 357(1), 371(-2), 381, 403(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 256, 305, 346, 354, 365, 375, 411 β To @(5+4 GTT)
π’ @343 (20+12 :TGC) πͺ 298(-2) β To @(20+20 ACG) <> π΄ High Energy Collision 288, 297, 377, 390, 396, 400 β To @(20+12 TGC)
π° @344 (204+1 :GAC) πͺ 353(-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+1 271, 282, 308, 376, 386, 414, 428, 440 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @345 (20+19 :ACA) πͺ 249(-2), 266(-2), 315(1), 393, 436 β To @(5+2 TGT) <> π΄ High Energy Collision 251, 264 β To @(20+19 ACA)
π· @346 (5+4 :GTT) βπͺ Flow Figure8 + Opposites292, 307(-3), 357, 371, 381, 403 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 256, 305, 342, 354, 365, 375, 411 β To @(5+4 GTT)
π’ @347 (20+15 :CTC) πͺ 279, 302(-2), 312, 398, 419, 431 β To @(202+3 GAG)
π· @350 (3+7 :TTC) πͺ 285(-2), 340, 370, 405(-1), 416(-1) β To @(201+1 AAG) <> π΄ High Energy Collision 273, 287, 384, 410 β To @(3+7 TTC)
π° @353 (20+1 :CTG) πͺ 271, 344(-2), 440(-1) β To @(204+1 GAC)
π° @354 (5+4 :GTT) βπͺ Flow Figure8 + Opposites292, 307(-2), 357(-2), 371, 381(7), 403 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 256, 305, 342, 346, 365, 375, 411, 446 β To @(5+4 GTT)
π· @355 (20+4 :GCT) πͺ 380(4), 454 β To @(203+3 CGA) <> π΄ High Energy Collision 260, 262, 274, 356, 437, 441, 442 β To @(20+4 GCT)
π· @356 (20+4 :GCT) πͺ 380(3), 454 β To @(203+3 CGA) <> π΄ High Energy Collision 260, 262, 274, 355, 437, 441, 442 β To @(20+4 GCT)
π° @357 (203+1 :CAA) πͺ 305(4), 342(1), 346, 354(-2), 365, 375, 411, 446(3) β To @(5+4 GTT) <> π΄ High Energy Collision 292, 371 β To @(203+1 CAA)
π’ @358 (5+1 :TCT) βπͺ Flow Figure8 + Opposites266(2), 280, 315(-2), 393(3), 436(-1) β To @(201+3, 5+2 AGA, TGT) <> π΄ High Energy Collision 333, 334, 389 β To @(5+1 TCT)
π· @359 (20+25 :GGT) πͺ 263, 296, 306(3), 330(-1), 336(-3), 339(-1), 395(3), 417, 445(3), 455(2) β To @(203+4 CCA) <> π΄ High Energy Collision 269, 270, 291, 316, 320 β To @(20+25 GGT)
π’ @362 (5+8 :ACC) β 290, 304(1) β To @(5+7 TCC) <> π΄ High Energy Collision 284 β To @(5+8 ACC)
π’ @364 (204+3 :GCG) πͺ 282, 451(-1), 459 β To @(204+5 CGC)
π° @365 (5+4 :GTT) βπͺ Flow Figure8 + Opposites292(1), 307(-2), 357, 371, 381, 403 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 305, 342, 346, 354, 375, 411, 446 β To @(5+4 GTT)
π· @367 (20+23 :GTG) πͺ 387, 433(-1), 452(1), 465 β To @(20+13 CAC)
π· @369 (201+2 :AAC) πͺ 307(2), 381, 403(-3) β To @(5+3 TTG) <> π΄ High Energy Collision 294, 324, 341, 404 β To @(201+2 AAC)
π· @370 (201+1 :AAG) πͺ 273, 287(-2), 350, 384(2), 410(4), 453(2), 464 β To @(3+7 TTC) <> π΄ High Energy Collision 285, 340, 405, 416, 466 β To @(201+1 AAG)
π° @371 (203+1 :CAA) πͺ 305(2), 342(-2), 346, 354, 365, 375, 411(3), 446, 468(-3) β To @(5+4 GTT) <> π΄ High Energy Collision 292, 357, 467 β To @(203+1 CAA)
π° @375 (5+4 :GTT) βπͺ Flow Figure8 + Opposites292, 307(-4), 357, 371, 381, 403, 467(-2), 469(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 305, 342, 346, 354, 365, 411, 446, 468 β To @(5+4 GTT)
π’ @377 (20+12 :TGC) πͺ 298(-2) β To @(20+20 ACG) <> π΄ High Energy Collision 288, 297, 343, 390, 396, 400 β To @(20+12 TGC)
π· @380 (203+3 :CGA) πͺ 355(4), 356(3), 437, 441, 442 β To @(20+4 GCT) <> π΄ High Energy Collision 454, 460 β To @(203+3 CGA)
π° @381 (5+3 :TTG) βπͺ Flow Figure8 + Opposites294, 305(-2), 324(-1), 341, 342, 346, 354(7), 365, 369, 375, 404(-2), 411, 446, 468(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 307, 403, 469 β To @(5+3 TTG)
π’ @382 (20+9 :TCA) πͺ 427(-2), 478(1) β To @(20+21 AGT)
π· @384 (3+7 :TTC) πͺ 285(-4), 340(3), 370(2), 405(2), 416, 466(-1), 475 β To @(201+1 AAG) <> π΄ High Energy Collision 287, 350, 410, 453, 464 β To @(3+7 TTC)
π· @387 (20+13 :CAC) πͺ 367 β To @(20+23 GTG) <> π΄ High Energy Collision 433, 452, 465 β To @(20+13 CAC)
π° @389 (5+1 :TCT) β 315, 393, 436 β To @(5+2 TGT) <> π΄ High Energy Collision 333, 334, 358 β To @(5+1 TCT)
π’ @390 (20+12 :TGC) πͺ 298(1) β To @(20+20 ACG) <> π΄ High Energy Collision 297, 343, 377, 396, 400 β To @(20+12 TGC)
π’ @392 (203+2 :CAG) πͺ 293, 299(3), 318(-2), 335(7) β To @(5+6 GTC) <> π΄ High Energy Collision 429, 447, 472, 476 β To @(203+2 CAG)
π° @393 (5+2 :TGT) βπͺ Flow Figure8 + Opposites333(2), 334(4), 345, 358(3), 389 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 315, 436 β To @(5+2 TGT)
π’ @394 (20+3 :ACT) πͺ 480 β To @(20+11 TGA) <> π΄ High Energy Collision 372, 434 β To @(20+3 ACT)
π’ @395 (203+4 :CCA) πͺ 316, 320(1), 359(3) β To @(20+25 GGT) <> π΄ High Energy Collision 296, 306, 330, 336, 339, 417, 445, 455 β To @(203+4 CCA)
π’ @396 (20+12 :TGC) πͺ 298(-3) β To @(20+20 ACG) <> π΄ High Energy Collision 297, 343, 377, 390, 400 β To @(20+12 TGC)
π’ @397 (20+16 :CGT) πͺ 443 β To @(204+2 GCA) <> π΄ High Energy Collision 313, 409 β To @(20+16 CGT)
π’ @398 (202+3 :GAG) πͺ 347, 449(-2), 457(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 300, 301, 302, 312, 388...,456, 458, 463, 471 β To @(202+2, 202+3 GAA, GAG)
π’ @402 (5+5 :TGG) β 318, 335 β To @(5+6 GTC) <> π΄ High Energy Collision 322, 408, 424, 444 β To @(5+5 TGG)
π° @403 (5+3 :TTG) βπͺ Flow Figure8 + Opposites305(1), 324(-3), 341(-3), 342(-2), 346, 354, 365, 369(-3), 375, 404(4), 411(3), 446(-1), 468(2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 307, 381, 469 β To @(5+3 TTG)
π° @404 (201+2 :AAC) πͺ 307(1), 381(-2), 403(4), 469(2) β To @(5+3 TTG) <> π΄ High Energy Collision 324, 341, 369 β To @(201+2 AAC)
π° @405 (201+1 :AAG) πͺ 350(-1), 384(2), 410(3), 453, 464(-2) β To @(3+7 TTC) <> π΄ High Energy Collision 340, 370, 416, 466, 475 β To @(201+1 AAG)
π’ @408 (5+5 :TGG) β 318, 335 β To @(5+6 GTC) <> π΄ High Energy Collision 322, 402, 424, 444 β To @(5+5 TGG)
π’ @409 (20+16 :CGT) πͺ 443(-2) β To @(204+2 GCA) <> π΄ High Energy Collision 313, 397 β To @(20+16 CGT)
π° @410 (3+7 :TTC) πͺ 340(-1), 370(4), 405(3), 416, 466(1), 475 β To @(201+1 AAG) <> π΄ High Energy Collision 350, 384, 453, 464 β To @(3+7 TTC)
π° @411 (5+4 :GTT) βπͺ Flow Figure8 + Opposites357, 371(3), 381, 403(3), 467(2), 469, 479 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 342, 346, 354, 365, 375, 446, 468 β To @(5+4 GTT)
π° @416 (201+1 :AAG) πͺ 350(-1), 384, 410, 453(-1), 464(-3) β To @(3+7 TTC) <> π΄ High Energy Collision 340, 370, 405, 466, 475 β To @(201+1 AAG)
π’ @417 (203+4 :CCA) πͺ 320, 359 β To @(20+25 GGT) <> π΄ High Energy Collision 330, 336, 339, 395, 445, 455 β To @(203+4 CCA)
π’ @419 (202+3 :GAG) πͺ 347, 449, 457(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 388, 398, 425, 431, 456, 458, 463, 471 β To @(202+2, 202+3 GAA, GAG)
π’ @424 (5+5 :TGG) β 335 β To @(5+6 GTC) <> π΄ High Energy Collision 402, 408, 444 β To @(5+5 TGG)
π’ @427 (20+21 :AGT) πͺ 382(-2) β To @(20+9 TCA) <> π΄ High Energy Collision 478 β To @(20+21 AGT)
π’ @429 (203+2 :CAG) πͺ 335 β To @(5+6 GTC) <> π΄ High Energy Collision 392, 447, 472, 476 β To @(203+2 CAG)
π· @431 (202+3 :GAG) πͺ 347, 449(-2), 457(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 388, 398, 419, 425, 456, 458, 463, 471 β To @(202+2, 202+3 GAA, GAG)
π’ @433 (20+13 :CAC) πͺ 367(-1) β To @(20+23 GTG) <> π΄ High Energy Collision 387, 452, 465 β To @(20+13 CAC)
π’ @434 (20+3 :ACT) πͺ 480 β To @(20+11 TGA) <> π΄ High Energy Collision 372, 394 β To @(20+3 ACT)
π’ @436 (5+2 :TGT) βπͺ Flow Figure8 + Opposites345, 358(-1), 389 β To @(20+19, 5+1 ACA, TCT) <> π΄ High Energy Collision 393 β To @(5+2 TGT)
π· @437 (20+4 :GCT) πͺ 380, 454, 460 β To @(203+3 CGA) <> π΄ High Energy Collision 355, 356, 441, 442 β To @(20+4 GCT)
π’ @440 (204+1 :GAC) πͺ 353(-1) β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 205+1 204+1 344, 376, 386, 414, 428, 451, 459 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @441 (20+4 :GCT) πͺ 380, 454, 460(-2) β To @(203+3 CGA) <> π΄ High Energy Collision 355, 356, 437, 442 β To @(20+4 GCT)
π· @442 (20+4 :GCT) πͺ 380, 454, 460(-1) β To @(203+3 CGA) <> π΄ High Energy Collision 355, 356, 437, 441 β To @(20+4 GCT)
π’ @443 (204+2 :GCA) πͺ 397, 409(-2) β To @(20+16 CGT)
π’ @445 (203+4 :CCA) πͺ 359(3) β To @(20+25 GGT) <> π΄ High Energy Collision 395, 417, 455 β To @(203+4 CCA)
π· @446 (5+4 :GTT) βπͺ Flow Figure8 + Opposites357(3), 371, 381, 403(-1), 467(-2), 469(-2), 479 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 354, 365, 375, 411, 468 β To @(5+4 GTT)
π· @449 (20+15 :CTC) πͺ 398(-2), 419, 431(-2), 463, 471(-1) β To @(202+3 GAG) <> π΄ High Energy Collision 457 β To @(20+15 CTC)
π’ @451 (204+5 :CGC) πͺ 364(-1) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 440, 459 β To @(204+1, 204+5 CGC, GAC)
π’ @452 (20+13 :CAC) πͺ 367(1) β To @(20+23 GTG) <> π΄ High Energy Collision 387, 433, 465 β To @(20+13 CAC)
π· @453 (3+7 :TTC) πͺ 370(2), 405, 416(-1), 466(-4), 475 β To @(201+1 AAG) <> π΄ High Energy Collision 384, 410, 464 β To @(3+7 TTC)
π· @454 (203+3 :CGA) πͺ 355, 356, 437, 441, 442 β To @(20+4 GCT) <> π΄ High Energy Collision 380, 460 β To @(203+3 CGA)
π’ @455 (203+4 :CCA) πͺ 359(2) β To @(20+25 GGT) <> π΄ High Energy Collision 395, 417, 445 β To @(203+4 CCA)
π° @457 (20+15 :CTC) πͺ 398(-4), 419(-4), 431(-4), 463(-4), 471(-4) β To @(202+3 GAG) <> π΄ High Energy Collision 449 β To @(20+15 CTC)
π’ @459 (204+5 :CGC) πͺ 364 β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 440, 451 β To @(204+1, 204+5 CGC, GAC)
π· @460 (203+3 :CGA) πͺ 437, 441(-2), 442(-1) β To @(20+4 GCT) <> π΄ High Energy Collision 380, 454 β To @(203+3 CGA)
π° @463 (202+3 :GAG) πͺ 449, 457(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 388, 398, 419, 425, 431, 456, 458, 471 β To @(202+2, 202+3 GAA, GAG)
π° @464 (3+7 :TTC) πͺ 370, 405(-2), 416(-3), 466(2), 475(-3) β To @(201+1 AAG) <> π΄ High Energy Collision 384, 410, 453 β To @(3+7 TTC)
π’ @465 (20+13 :CAC) πͺ 367 β To @(20+23 GTG) <> π΄ High Energy Collision 387, 433, 452 β To @(20+13 CAC)
π° @466 (201+1 :AAG) πͺ 384(-1), 410(1), 453(-4), 464(2) β To @(3+7 TTC) <> π΄ High Energy Collision 370, 405, 416, 475 β To @(201+1 AAG)
π° @467 (203+1 :CAA) πͺ 375(-2), 411(2), 446(-2), 468(9) β To @(5+4 GTT) <> π΄ High Energy Collision 371, 479 β To @(203+1 CAA)
π° @468 (5+4 :GTT) βπͺ Flow Figure8 + Opposites371(-3), 381(-2), 403(2), 467(9), 469(8), 479(-2) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 375, 411, 446 β To @(5+4 GTT)
π° @469 (5+3 :TTG) βπͺ Flow Figure8 + Opposites375(-2), 404(2), 411, 446(-2), 468(8) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 381, 403 β To @(5+3 TTG)
π· @471 (202+3 :GAG) πͺ 449(-1), 457(-4) β To @(20+15 CTC) <> π΄ High Energy Collision 388, 398, 419, 425, 431, 456, 458, 463 β To @(202+2, 202+3 GAA, GAG)
π· @475 (201+1 :AAG) πͺ 384, 410, 453, 464(-3) β To @(3+7 TTC) <> π΄ High Energy Collision 405, 416, 466 β To @(201+1 AAG)
π’ @478 (20+21 :AGT) πͺ 382(1) β To @(20+9 TCA) <> π΄ High Energy Collision 427 β To @(20+21 AGT)
π· @479 (203+1 :CAA) πͺ 411, 446, 468(-2) β To @(5+4 GTT) <> π΄ High Energy Collision 467 β To @(203+1 CAA)
π’ @480 (20+11 :TGA) πͺ 394, 434 β To @(20+3 ACT)
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