lexA GENE
lexA
Gene type: protein
organism=Escherichia coli str. K-12 substr. MG1655
Gene - Raw genomic sequence with all regulatory regions
β 203 codons, 203 functional, 263 bonds
Pattern Distribution:
Pattern 3 (Structural (Simple)): 21 (10.3%)
Pattern 5 (Flow (Bonding)): 25 (12.3%)
Pattern 20 (Complex (Coordination)): 70 (34.5%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 16 (7.9%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 22 (10.8%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 17 (8.4%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 22 (10.8%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 10 (4.9%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)lexA - DNA-binding transcriptional repressor LexA BETA Escherichia coli str. K-12 substr. MG1655 Gene name DNA-binding transcriptional repressor LexA Symbol lexA Gene ID 948544 Locus tag b4043 Organism Escherichia coli str. K-12 substr. MG1655 Gene type protein-coding Synonym ECK4035, exrA, spr, tsl, umuA Proteins 1 Refseq summary LexA autocleavage, stimulated by RecA, of the first 84 aa of LexA removes the DNA binding region and is required to activate the SOS response. [More information is available at EcoGene: EG10533]. LexA is a protein that belongs to the LexA family . [More information is available at EcoCyc: EG10533].
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 ππ π΅π₯ βποΈ βπ€Έ π΅π« πβ¬π πππ± πππ± β¬β βπ ππ΅ βπ₯ βπ βπͺ βπ¬ βπ₯ βπͺ¨ βπͺ πβ‘ ππΏ βπ βποΈ βπ ββ°οΈ ββ°οΈ βπ€Έ βπ¬ π΅π₯ β¬π βπͺ π΅π₯ ππΏ βπ¬ πΈπ§ ππ βπ΅ βπ¬ πΈπ ππ π𧬠π΅π₯ βπ§ β¬π β¬π βποΈ ββ πππͺοΈ π΅π₯ ββ π΅π― π΅π ππ β¬π« πΈβ·οΈ βπ° β¬π βπ° πΈβ·οΈ πΈπ β¬π« π΅π― βπ π΅π ππ βπ° βπ¬ ββ πΈπ§ ππΏ β¬π β¬β β¬π β¬π ππ πΈπ§ ββ°οΈ ββ βπ» βποΈ βπ¬ βπ βπ§ π΅π« βποΈ β¬π ππ βπ ββ π΅π₯ πππ± ππΏ βποΈ βπ° β¬π βποΈ βποΈ βπ ππΏ πΈπ βπ₯ βποΈ πΈπ βποΈ βπ΅ πππͺοΈ ββ°οΈ βπ βπ§ βπ₯ βπ΅ ββ ββ π΅π πΈπ πβ‘ ππ βπ βπ¨ βπ ππ βπ₯ βπͺ β¬π« βπ° βπ βπ₯ βποΈ π΅πΌ, πΈπ§ ββ π΅π― βπ βποΈ ππ βπ― ππΏ βπ₯ βπ» βπ¬ π𧬠βποΈ ππΏ πΈπ πΈβ·οΈ πΈπ π΅π― βπ¬ βπ° βπ₯ π΅πΌ, β¬π πΈβ·οΈ πΈπ πΈβ·οΈ πππͺοΈ π΅π ββ ππ ππ ππΏ β¬π« βπ ππ πΈπ β¬π ββ πΈπ§ ππ β¬π βπ πβ‘ β¬β ππ΅ ππ ππ βπ° πΈπ πΈβ·οΈ π΅πΌ, βπ βπ¬ ππΏ ππΏ πβ‘ βπ΅ πΈπ βπ° β¬π ππ ββ π΅π₯ πΈβ·οΈ ππ πΈβ·οΈ βπ° π΅π π𧬠β¬π« π΅πΌ, πΈπ ββ βπ
Gene Report
π¬ LEXA_GENE
Function: π GROWTH ARCHITECT (Fibonacci Development)
Total Codons: 203, Functional: 203
Pattern Distribution:
Pattern 3 (Structural (Simple)): 21 (10.3%)
Pattern 5 (Flow (Bonding)): 25 (12.3%)
Pattern 20 (Complex (Coordination)): 70 (34.5%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 16 (7.9%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 22 (10.8%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 17 (8.4%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 22 (10.8%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 10 (4.9%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
Flow/Structure Ratio: 1.19 - βοΈ Moderate flow structure balance
Folding Strategy: π COMPLEX FOLDING (Multi-domain coordination)
Bonding Sites: 263
Early bonds: 85 (avg distance: 48.0)
Middle bonds: 138 (avg distance: 48.8)
Late bonds: 40 (avg distance: 23.6)
π Protein Folding - Bond/Coordination Candidates:
π’ @3 (204+3 :GCG) πͺ 52(-2), 64 β To @(204+5 CGC) <> π΄ High Energy Collision 29, 32, 42, 49, 90 β To @(204+3 GCG)
π’ @7 (202+1 :AGG) πͺ 39, 60(7), 103 β To @(5+7 TCC) <> π΄ High Energy Collision 48, 106 β To @(201+1 AAG)
π’ @8 (203+1 :CAA) πͺ 55, 59(4) β To @(5+4 GTT) <> π΄ High Energy Collision 9, 91 β To @(203+1 CAA)
π’ @9 (203+1 :CAA) πͺ 55(-1), 59(2) β To @(5+4 GTT) <> π΄ High Energy Collision 8, 91 β To @(203+1 CAA)
π° @10 (202+3 :GAG) πͺ 14 β To @(20+15 CTC) <> π΄ High Energy Collision 30, 44, 45, 57, 71, 72, 73, 74, 86, 95 β To @(202+2, 202+3 GAA, GAG)
π° @11 (20+23 :GTG) πͺ 18(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 82 β To @(20+23 GTG)
π° @14 (20+15 :CTC) πͺ 10, 72 β To @(202+3 GAG)
π’ @16 (20+16 :CGT) πͺ 51, 62 β To @(204+2 GCA) <> π΄ High Energy Collision 28, 34, 38, 67, 81 β To @(20+16 CGT)
π° @18 (20+13 :CAC) πͺ 11(-1), 82(-1) β To @(20+23 GTG)
π’ @20 (201+4 :AGC) πͺ 119 β To @(20+10 TCG) <> π΄ High Energy Collision 116 β To @(201+4 AGC)
π’ @21 (203+2 :CAG) πͺ 100(-2), 115(-2) β To @(5+6 GTC) <> π΄ High Energy Collision 33, 70, 92, 99 β To @(203+2 CAG)
π· @23 (20+25 :GGT) πͺ 40, 87(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 80, 85, 96 β To @(20+25 GGT)
π· @25 (20+14 :CCG) πͺ 54, 61, 124 β To @(202+5 GGC) <> π΄ High Energy Collision 26, 77, 107 β To @(20+14 CCG)
π· @26 (20+14 :CCG) πͺ 54(1), 61(3), 124 β To @(202+5 GGC) <> π΄ High Energy Collision 25, 77, 107 β To @(20+14 CCG)
π· @28 (20+16 :CGT) πͺ 51(3), 62(8) β To @(204+2 GCA) <> π΄ High Energy Collision 16, 34, 38, 67, 81 β To @(20+16 CGT)
π· @29 (204+3 :GCG) πͺ 52(5), 64(3), 114 β To @(204+5 CGC) <> π΄ High Energy Collision 3, 32, 42, 49, 90 β To @(204+3 GCG)
π· @32 (204+3 :GCG) πͺ 52(3), 64(2), 114(4) β To @(204+5 CGC) <> π΄ High Energy Collision 3, 29, 42, 49, 90 β To @(204+3 GCG)
π’ @33 (203+2 :CAG) πͺ 100(-2), 115(4) β To @(5+6 GTC) <> π΄ High Energy Collision 21, 70, 92, 99 β To @(203+2 CAG)
π· @34 (20+16 :CGT) πͺ 51(3), 62(4), 132(-1) β To @(204+2 GCA) <> π΄ High Energy Collision 16, 28, 38, 67, 81 β To @(20+16 CGT)
π° @35 (5+3 :TTG) βπͺ Flow Figure8 + Opposites41, 55, 59 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 69, 76, 130 β To @(5+3 TTG)
π· @37 (3+7 :TTC) πͺπ Opposites + Structural Lock Key48(-2), 102(-1), 106(-4) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 105, 111 β To @(3+7 TTC)
π· @38 (20+16 :CGT) πͺ 51(2), 62(-1), 132 β To @(204+2 GCA) <> π΄ High Energy Collision 16, 28, 34, 67, 81 β To @(20+16 CGT)
π’ @39 (5+7 :TCC) πͺ 7 β To @(202+1 AGG) <> π΄ High Energy Collision 60, 103 β To @(5+7 TCC)
π· @40 (203+4 :CCA) πͺ 23, 80(-1), 85(-2), 96, 128(3) β To @(20+25 GGT) <> π΄ High Energy Collision 87 β To @(203+4 CCA)
π° @41 (201+2 :AAC) πͺ 35, 69, 76, 130(4) β To @(5+3 TTG)
π· @42 (204+3 :GCG) πͺ 52, 64, 114 β To @(204+5 CGC) <> π΄ High Energy Collision 3, 29, 32, 49, 90 β To @(204+3 GCG)
π’ @46 (20+2 :CAT) πͺ 79(-2), 139 β To @(20+22 GTA) <> π΄ High Energy Collision 93, 97, 134 β To @(20+2 CAT)
π’ @47 (20+1 :CTG) πͺ 129(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 50, 68, 78, 89, 112, 113, 131 β To @(20+1 CTG)
π· @48 (201+1 :AAG) πͺ 37(-2), 105(-2), 111(-4) β To @(3+7 TTC) <> π΄ High Energy Collision 7, 36, 65, 75, 106, 117 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π° @49 (204+3 :GCG) πͺ 52, 64(-2), 114(-2) β To @(204+5 CGC) <> π΄ High Energy Collision 3, 29, 32, 42, 90 β To @(204+3 GCG)
π’ @50 (20+1 :CTG) πͺ 129(-4) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 68, 78, 89, 112, 113, 131 β To @(20+1 CTG)
π· @51 (204+2 :GCA) πͺ 16, 28(3), 34(3), 38(2), 67(-1), 81, 140, 148(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 62, 132, 147 β To @(204+2 GCA)
π° @52 (204+5 :CGC) πͺ 3(-2), 29(5), 32(3), 42, 49, 90(-1) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 64, 114, 129, 151 β To @(204+1, 204+5 CGC, GAC)
π· @54 (202+5 :GGC) πͺ 25, 26(1), 77(4), 107 β To @(20+14 CCG) <> π΄ High Energy Collision 61, 124 β To @(202+5 GGC)
π· @55 (5+4 :GTT) βπͺ Flow Figure8 + Opposites8, 9(-1), 35, 69, 76(4), 91(2), 130(-1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 59, 145, 153 β To @(5+4 GTT)
π· @59 (5+4 :GTT) βπͺ Flow Figure8 + Opposites8(4), 9(2), 35, 69, 76(3), 91, 130 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 55, 145, 153, 155 β To @(5+4 GTT)
π’ @60 (5+7 :TCC) βπͺ Flow Figure8 + Opposites7(7), 154(-4) β To @(202+1, 5+8 ACC, AGG) <> π΄ High Energy Collision 39, 103 β To @(5+7 TCC)
π· @61 (202+5 :GGC) πͺ 25, 26(3), 77(3), 107 β To @(20+14 CCG) <> π΄ High Energy Collision 54, 124 β To @(202+5 GGC)
π° @62 (204+2 :GCA) πͺ 16, 28(8), 34(4), 38(-1), 67(1), 81, 140, 148(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 51, 132, 147 β To @(204+2 GCA)
π· @64 (204+5 :CGC) πͺ 3, 29(3), 32(2), 42, 49(-2), 90 β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 52, 114, 129, 151, 157 β To @(204+1, 204+5 CGC, GAC)
π° @67 (20+16 :CGT) πͺ 51(-1), 62(1), 132, 147(-1) β To @(204+2 GCA) <> π΄ High Energy Collision 16, 28, 34, 38, 81, 140, 148 β To @(20+16 CGT)
π’ @68 (20+1 :CTG) πͺ 129(-4), 151(3) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 78, 89, 112, 113, 131, 158, 167 β To @(20+1 CTG)
π· @69 (5+3 :TTG) βπͺ Flow Figure8 + Opposites41, 55, 59, 141(-2), 145(9), 153(2), 155 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 35, 76, 130, 168 β To @(5+3 TTG)
π’ @70 (203+2 :CAG) πͺ 100(-2), 115, 144(4), 146(6), 165(-3) β To @(5+6 GTC) <> π΄ High Energy Collision 21, 33, 92, 99, 137, 143, 161 β To @(203+2 CAG)
π’ @72 (202+3 :GAG) πͺ 14 β To @(20+15 CTC) <> π΄ High Energy Collision 10, 30, 44, 45, 57...,95, 152, 166, 170 β To @(202+2, 202+3 GAA, GAG)
π· @76 (5+3 :TTG) βπͺ Flow Figure8 + Opposites41, 55(4), 59(3), 141, 145, 153(1), 155(-2) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 35, 69, 130, 168 β To @(5+3 TTG)
π· @77 (20+14 :CCG) πͺ 54(4), 61(3), 124, 162 β To @(202+5 GGC) <> π΄ High Energy Collision 25, 26, 107 β To @(20+14 CCG)
π’ @78 (20+1 :CTG) πͺ 129(-4), 151(2) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 68, 89, 112, 113, 131, 158, 167 β To @(20+1 CTG)
π· @79 (20+22 :GTA) πͺ 46(-2), 93, 97(-2), 134(2) β To @(20+2 CAT) <> π΄ High Energy Collision 139 β To @(20+22 GTA)
π° @80 (20+25 :GGT) πͺ 40(-1), 87(-2), 169, 176 β To @(203+4 CCA) <> π΄ High Energy Collision 23, 85, 96, 128, 142 β To @(20+25 GGT)
π· @81 (20+16 :CGT) πͺ 51, 62, 132, 147(-2) β To @(204+2 GCA) <> π΄ High Energy Collision 16, 28, 34, 38, 67, 140, 148 β To @(20+16 CGT)
π’ @82 (20+23 :GTG) πͺ 18(-1) β To @(20+13 CAC) <> π΄ High Energy Collision 11, 133 β To @(20+23 GTG)
π° @85 (20+25 :GGT) πͺ 40(-2), 87(2), 169(-4), 176(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 23, 80, 96, 128, 142 β To @(20+25 GGT)
π° @87 (203+4 :CCA) πͺ 23(-2), 80(-2), 85(2), 96(-4), 128(1), 142(-2) β To @(20+25 GGT) <> π΄ High Energy Collision 40, 169, 176 β To @(203+4 CCA)
π’ @89 (20+1 :CTG) πͺ 129(1), 151(2), 180(1) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 68, 78, 112, 113, 131, 158, 167 β To @(20+1 CTG)
π· @90 (204+3 :GCG) πͺ 52(-1), 64, 114, 157(1) β To @(204+5 CGC) <> π΄ High Energy Collision 3, 29, 32, 42, 49 β To @(204+3 GCG)
π’ @91 (203+1 :CAA) πͺ 55(2), 59, 145(7), 153(2), 155(3), 179(7) β To @(5+4 GTT) <> π΄ High Energy Collision 8, 9 β To @(203+1 CAA)
π° @92 (203+2 :CAG) πͺ 100(-2), 115(3), 144(2), 146(4), 165, 178(4) β To @(5+6 GTC) <> π΄ High Energy Collision 21, 33, 70, 99, 137, 143, 161, 183, 184 β To @(203+2 CAG)
π· @93 (20+2 :CAT) πͺ 79, 139(-1) β To @(20+22 GTA) <> π΄ High Energy Collision 46, 97, 134 β To @(20+2 CAT)
π° @96 (20+25 :GGT) πͺ 40, 87(-4), 169(-2), 176(-1) β To @(203+4 CCA) <> π΄ High Energy Collision 23, 80, 85, 128, 142 β To @(20+25 GGT)
π· @97 (20+2 :CAT) πͺ 79(-2), 139 β To @(20+22 GTA) <> π΄ High Energy Collision 46, 93, 134 β To @(20+2 CAT)
π° @99 (203+2 :CAG) πͺ 100(4), 115(-2), 144(-1), 146(-1), 165(-2), 178(-1) β To @(5+6 GTC) <> π΄ High Energy Collision 21, 33, 70, 92, 137, 143, 161, 183, 184 β To @(203+2 CAG)
π° @100 (5+6 :GTC) πͺ 21(-2), 33(-2), 70(-2), 92(-2), 99(4), 137(-3), 143, 161(-2), 183(-4), 184(-2) β To @(203+2 CAG) <> π΄ High Energy Collision 115, 144, 146, 165, 178 β To @(5+6 GTC)
π° @102 (3+8 :CCT) π 37(-1), 105, 111(-1), 186(7) β To @(3+7 TTC)
π’ @103 (5+7 :TCC) βπͺ Flow Figure8 + Opposites7, 154(2), 187(3) β To @(202+1, 5+8 ACC, AGG) <> π΄ High Energy Collision 39, 60 β To @(5+7 TCC)
π° @104 (3+1 :TTA) π 108(5), 163, 171 β To @(3+2 AAT)
π° @105 (3+7 :TTC) πͺπ Opposites + Structural Lock Key48(-2), 102, 106(9), 156 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 37, 111, 186 β To @(3+7 TTC)
π° @106 (201+1 :AAG) πͺ 37(-4), 105(9), 111(-1), 186 β To @(3+7 TTC) <> π΄ High Energy Collision 7, 36, 48, 65, 75, 117, 156, 190, 194 β To @(201+1, 201+5, 202+1 AAG, AGG, GGG)
π· @107 (20+14 :CCG) πͺ 54, 61, 124, 162, 199 β To @(202+5 GGC) <> π΄ High Energy Collision 25, 26, 77 β To @(20+14 CCG)
π° @108 (3+2 :AAT) π 104(5) β To @(3+1 TTA) <> π΄ High Energy Collision 163, 171 β To @(3+2 AAT)
π° @111 (3+7 :TTC) πͺπ Opposites + Structural Lock Key48(-4), 102(-1), 106(-1), 156(-1) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 37, 105, 186 β To @(3+7 TTC)
π· @112 (20+1 :CTG) πͺ 129(-5), 151(-3), 180(-2), 200(-5) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 68, 78, 89...,158, 167, 191, 202 β To @(20+1 CTG)
π· @113 (20+1 :CTG) πͺ 129(-5), 151(-2), 180(-2), 200(-2) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 68, 78, 89...,158, 167, 191, 202 β To @(20+1 CTG)
π· @114 (204+5 :CGC) πͺ 29, 32(4), 42, 49(-2), 90, 192(-3) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 52, 64, 129, 151, 157, 180, 197, 200 β To @(204+1, 204+5 CGC, GAC)
π· @115 (5+6 :GTC) βπͺ Flow Figure8 + Opposites21(-2), 33(4), 70, 92(3), 99(-2), 137, 143(-2), 161, 183, 184(-2), 201(2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 100, 144, 146, 165, 178 β To @(5+6 GTC)
π° @116 (201+4 :AGC) πͺ 119(-1) β To @(20+10 TCG) <> π΄ High Energy Collision 20, 172, 185 β To @(201+4 AGC)
π° @119 (20+10 :TCG) πͺ 20, 116(-1), 172, 185 β To @(201+4 AGC)
π· @124 (202+5 :GGC) πͺ 25, 26, 77, 107 β To @(20+14 CCG) <> π΄ High Energy Collision 54, 61, 162, 199 β To @(202+5 GGC)
π’ @128 (20+25 :GGT) πͺ 40(3), 87(1), 169(2), 176(-2) β To @(203+4 CCA) <> π΄ High Energy Collision 80, 85, 96, 142 β To @(20+25 GGT)
π° @129 (204+1 :GAC) πͺ 47(-2), 50(-4), 68(-4), 78(-4), 89(1), 112(-5), 113(-5), 131(2), 158(-6), 167(-1), 191(1), 202(-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 52, 53, 64, 114, 121...,175, 180, 197, 200 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @130 (5+3 :TTG) βπͺ Flow Figure8 + Opposites41(4), 55(-1), 59, 141(2), 145, 153(2), 155(-1), 179(3), 193(2), 195(-1), 198 β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 35, 69, 76, 168 β To @(5+3 TTG)
π° @131 (20+1 :CTG) πͺ 129(2), 151(3), 180(5), 200(1) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 50, 68, 78, 89...,158, 167, 191, 202 β To @(20+1 CTG)
π° @132 (204+2 :GCA) πͺ 34(-1), 38, 67, 81, 140(6), 148(-1), 182(4) β To @(20+16 CGT) <> π΄ High Energy Collision 51, 62, 147 β To @(204+2 GCA)
π° @134 (20+2 :CAT) πͺ 79(2), 139(3) β To @(20+22 GTA) <> π΄ High Energy Collision 46, 93, 97 β To @(20+2 CAT)
π° @137 (203+2 :CAG) πͺ 100(-3), 115, 144(-2), 146, 165(-1), 178 β To @(5+6 GTC) <> π΄ High Energy Collision 70, 92, 99, 143, 161, 183, 184 β To @(203+2 CAG)
π° @139 (20+22 :GTA) πͺ 46, 93(-1), 97, 134(3) β To @(20+2 CAT) <> π΄ High Energy Collision 79 β To @(20+22 GTA)
π° @140 (20+16 :CGT) πͺ 51, 62, 132(6), 147 β To @(204+2 GCA) <> π΄ High Energy Collision 67, 81, 148, 182 β To @(20+16 CGT)
π· @141 (201+2 :AAC) πͺ 69(-2), 76, 130(2), 168(5) β To @(5+3 TTG) <> π΄ High Energy Collision 198 β To @(201+2 AAC)
π· @142 (20+25 :GGT) πͺ 87(-2), 169(4), 176(3) β To @(203+4 CCA) <> π΄ High Energy Collision 80, 85, 96, 128 β To @(20+25 GGT)
π° @143 (203+2 :CAG) πͺ 100, 115(-2), 144(3), 146(2), 165(-2), 178 β To @(5+6 GTC) <> π΄ High Energy Collision 70, 92, 99, 137, 161, 183, 184 β To @(203+2 CAG)
π° @144 (5+6 :GTC) βπͺ Flow Figure8 + Opposites70(4), 92(2), 99(-1), 137(-2), 143(3), 161(-2), 183(-1), 184(-1), 201 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 100, 115, 146, 165, 178 β To @(5+6 GTC)
π· @145 (5+4 :GTT) βπͺ Flow Figure8 + Opposites69(9), 76, 91(7), 130, 168(3) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 55, 59, 153, 155, 179, 193, 195 β To @(5+4 GTT)
π° @146 (5+6 :GTC) βπͺ Flow Figure8 + Opposites70(6), 92(4), 99(-1), 137, 143(2), 161, 183(6), 184(6), 201 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 100, 115, 144, 165, 178 β To @(5+6 GTC)
π° @147 (204+2 :GCA) πͺ 67(-1), 81(-2), 140, 148(4), 182(8) β To @(20+16 CGT) <> π΄ High Energy Collision 51, 62, 132 β To @(204+2 GCA)
π° @148 (20+16 :CGT) πͺ 51(-2), 62(-2), 132(-1), 147(4) β To @(204+2 GCA) <> π΄ High Energy Collision 67, 81, 140, 182 β To @(20+16 CGT)
π° @151 (204+1 :GAC) πͺ 68(3), 78(2), 89(2), 112(-3), 113(-2), 131(3), 158(-6), 167(1), 191(-1), 202(-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 52, 53, 64, 114, 121...,175, 180, 197, 200 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @153 (5+4 :GTT) βπͺ Flow Figure8 + Opposites69(2), 76(1), 91(2), 130(2), 168(1) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 55, 59, 145, 155, 179, 193, 195 β To @(5+4 GTT)
π’ @154 (5+8 :ACC) β 60(-4), 103(2) β To @(5+7 TCC) <> π΄ High Energy Collision 187 β To @(5+8 ACC)
π· @155 (5+4 :GTT) βπͺ Flow Figure8 + Opposites69, 76(-2), 91(3), 130(-1), 168 β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 59, 145, 153, 179, 193, 195 β To @(5+4 GTT)
π’ @156 (201+1 :AAG) πͺ 105, 111(-1), 186(-1) β To @(3+7 TTC) <> π΄ High Energy Collision 65, 75, 106, 117, 190, 194 β To @(201+1, 201+5 AAG, GGG)
π’ @157 (204+5 :CGC) πͺ 90(1), 192(-5) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 64, 114, 129, 151, 180, 197, 200 β To @(204+1, 204+5 CGC, GAC)
π° @158 (20+1 :CTG) πͺ 129(-6), 151(-6), 180(-6), 200(-8) β To @(204+1 GAC) <> π΄ High Energy Collision 68, 78, 89, 112, 113, 131, 167, 191, 202 β To @(20+1 CTG)
π° @161 (203+2 :CAG) πͺ 100(-2), 115, 144(-2), 146, 165(-3), 178 β To @(5+6 GTC) <> π΄ High Energy Collision 70, 92, 99, 137, 143, 183, 184 β To @(203+2 CAG)
π’ @162 (202+5 :GGC) πͺ 77, 107 β To @(20+14 CCG) <> π΄ High Energy Collision 124, 199 β To @(202+5 GGC)
π’ @163 (3+2 :AAT) π 104 β To @(3+1 TTA) <> π΄ High Energy Collision 108, 171 β To @(3+2 AAT)
π° @165 (5+6 :GTC) βπͺ Flow Figure8 + Opposites70(-3), 92, 99(-2), 137(-1), 143(-2), 161(-3), 183(1), 184, 201 β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 100, 115, 144, 146, 178 β To @(5+6 GTC)
π· @167 (20+1 :CTG) πͺ 129(-1), 151(1), 180(4), 200(4) β To @(204+1 GAC) <> π΄ High Energy Collision 68, 78, 89, 112, 113, 131, 158, 191, 202 β To @(20+1 CTG)
π· @168 (5+3 :TTG) βπͺ Flow Figure8 + Opposites141(5), 145(3), 153(1), 155, 179(4), 193(-1), 195, 198(3) β To @(201+2, 5+4 AAC, GTT) <> π΄ High Energy Collision 69, 76, 130 β To @(5+3 TTG)
π· @169 (203+4 :CCA) πͺ 80, 85(-4), 96(-2), 128(2), 142(4) β To @(20+25 GGT) <> π΄ High Energy Collision 87, 176 β To @(203+4 CCA)
π’ @171 (3+2 :AAT) π 104 β To @(3+1 TTA) <> π΄ High Energy Collision 108, 163 β To @(3+2 AAT)
π’ @172 (201+4 :AGC) πͺ 119 β To @(20+10 TCG) <> π΄ High Energy Collision 116, 185 β To @(201+4 AGC)
π’ @176 (203+4 :CCA) πͺ 80, 85(-2), 96(-1), 128(-2), 142(3) β To @(20+25 GGT) <> π΄ High Energy Collision 87, 169 β To @(203+4 CCA)
π° @178 (5+6 :GTC) βπͺ Flow Figure8 + Opposites92(4), 99(-1), 137, 143, 161, 183, 184, 201(2) β To @(203+2, 5+5 CAG, TGG) <> π΄ High Energy Collision 100, 115, 144, 146, 165 β To @(5+6 GTC)
π· @179 (5+4 :GTT) βπͺ Flow Figure8 + Opposites91(7), 130(3), 168(4) β To @(203+1, 5+3 CAA, TTG) <> π΄ High Energy Collision 145, 153, 155, 193, 195 β To @(5+4 GTT)
π· @180 (204+1 :GAC) πͺ 89(1), 112(-2), 113(-2), 131(5), 158(-6), 167(4), 191(-1), 202(1) β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 205+1 204+1 114, 121, 129, 135, 151...,164, 175, 197, 200 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @182 (20+16 :CGT) πͺ 132(4), 147(8) β To @(204+2 GCA) <> π΄ High Energy Collision 140, 148 β To @(20+16 CGT)
π° @183 (203+2 :CAG) πͺ 100(-4), 115, 144(-1), 146(6), 165(1), 178 β To @(5+6 GTC) <> π΄ High Energy Collision 92, 99, 137, 143, 161, 184 β To @(203+2 CAG)
π° @184 (203+2 :CAG) πͺ 100(-2), 115(-2), 144(-1), 146(6), 165, 178 β To @(5+6 GTC) <> π΄ High Energy Collision 92, 99, 137, 143, 161, 183 β To @(203+2 CAG)
π’ @185 (201+4 :AGC) πͺ 119 β To @(20+10 TCG) <> π΄ High Energy Collision 116, 172 β To @(201+4 AGC)
π’ @186 (3+7 :TTC) πͺπ Opposites + Structural Lock Key102(7), 106, 156(-1) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 105, 111 β To @(3+7 TTC)
π’ @187 (5+8 :ACC) β 103(3) β To @(5+7 TCC) <> π΄ High Energy Collision 154 β To @(5+8 ACC)
π° @191 (20+1 :CTG) πͺ 129(1), 151(-1), 180(-1), 200 β To @(204+1 GAC) <> π΄ High Energy Collision 112, 113, 131, 158, 167, 202 β To @(20+1 CTG)
π° @192 (204+3 :GCG) πͺ 114(-3), 157(-5), 197(-1) β To @(204+5 CGC)
π· @193 (5+4 :GTT) β 130(2), 168(-1) β To @(5+3 TTG) <> π΄ High Energy Collision 145, 153, 155, 179, 195 β To @(5+4 GTT)
π· @195 (5+4 :GTT) β 130(-1), 168 β To @(5+3 TTG) <> π΄ High Energy Collision 145, 153, 155, 179, 193 β To @(5+4 GTT)
π° @197 (204+5 :CGC) πͺ 192(-1) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 114, 129, 151, 157, 180, 200 β To @(204+1, 204+5 CGC, GAC)
π’ @198 (201+2 :AAC) πͺ 130, 168(3) β To @(5+3 TTG) <> π΄ High Energy Collision 141 β To @(201+2 AAC)
π’ @199 (202+5 :GGC) πͺ 107 β To @(20+14 CCG) <> π΄ High Energy Collision 124, 162 β To @(202+5 GGC)
π° @200 (204+1 :GAC) πͺ 112(-5), 113(-2), 131(1), 158(-8), 167(4), 191, 202(2) β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 205+1 204+1 114, 121, 129, 135, 151...,164, 175, 180, 197 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π· @201 (5+5 :TGG) β 115(2), 144, 146, 165, 178(2) β To @(5+6 GTC)
π° @202 (20+1 :CTG) πͺ 129(-2), 151(-2), 180(1), 200(2) β To @(204+1 GAC) <> π΄ High Energy Collision 112, 113, 131, 158, 167, 191 β To @(20+1 CTG)
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