rplL GENE

Unknown

Published

October 5, 2025

Gene type: protein

organism=Escherichia coli str. K-12 substr. MG1655

Gene - Raw genomic sequence with all regulatory regions

βœ… 122 codons, 122 functional, 66 bonds

   Pattern Distribution:
      Pattern 3 (Structural (Simple)): 5 (4.1%)
      Pattern 5 (Flow (Bonding)): 13 (10.7%)
      Pattern 20 (Complex (Coordination)): 53 (43.4%)
      Pattern 201 (Spiral Threaders (φ¹ Harmonics)): 2 (1.6%)
      Pattern 202 (Pentagon Ricochets (φ² Harmonics)): 22 (18.0%)
      Pattern 203 (Fibonacci Pilers (φ³ Harmonics)): 1 (0.8%)
      Pattern 204 (Golden Harmonic Resonators (φ⁴ Harmonics)): 13 (10.7%)
      Pattern 205 (Geometric Controllers (Ο†βˆž Harmonics)): 13 (10.7%)
      Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
Gaia's Grammar
Internal Bonds
Internal Guidance
Partner Bonds
Partner Guidance
πŸ“ Geometry
Building Patterns
🌊 Verbs
Action Flow
πŸ—οΈ Nouns
Structural Objects
🎨 Adjectives
Complex Descriptors
πŸ€” Ready (+1)
Foundation Setting
βœ… Set (+2)
Coordination
🌱 Grow (+3)
Power Acceleration
🌳 Grow On (+4)
Sustained Momentum
🌲 Grow Strong (+5)
Growth with authority
πŸ›£οΈ Gene Highway
Roadway for DNA

πŸ“–β—†πŸš€ 🌸πŸ₯ β—†πŸŽͺ β—†πŸŽ― πŸ’ŽπŸŒ€ β—†πŸ”₯ πŸ“–πŸšπŸŒ± β—†πŸŽͺ β—‡πŸ° β¬ŸπŸ”„ 🎡🎯 πŸŒΈβ›·οΈ 🎡🎯 β—†πŸ”§ β—†πŸš€ 🌸πŸ₯ β—†πŸ—» β—†πŸš€ 🎡🎼, πŸŒΈβ›·οΈ β—†πŸ—» β¬ŸπŸ”„ β—†βš“ β—†πŸŽͺ 🌸πŸ₯ 🎡🎯 β—†πŸš€ β¬ŸπŸ”„ β¬ŸπŸ”„ πŸ’ŽπŸŒ€ β—‡πŸ’΅ β—†πŸ”οΈ πŸŒΈβ›·οΈ πŸŒΈπŸ’‹ β—†πŸ”§ β—†πŸ”§ β—†πŸ”§ β—†πŸ”§ β—†πŸ—» β—†πŸ”§ β—†πŸ—» β—†πŸ”§ β—†πŸ”§ β¬ŸπŸ’« ◆⛰️ πŸŒΈβ›·οΈ β¬ŸπŸ”„ β—†πŸ”§ β—†πŸ”§ β¬ŸπŸ”„ β¬ŸπŸ”„ πŸ’ŽπŸŒ€ β—†πŸŽ― β¬ŸπŸ”„ β—‡πŸ’΅ 🎡🎼, β—†πŸ—» β—‡πŸ° β—†βš“ πŸ’ŽπŸŒ€ β—†πŸ”§ β—†πŸ”§ β¬ŸπŸ’« β—†πŸ”§ πŸŒ€πŸ§¬ πŸ’ŽπŸŒ€ πŸŒΈβ›·οΈ β—†πŸ”§ πŸŒΈβ›·οΈ β—†πŸŽͺ πŸ’ŽπŸŒ€ 🎡🎯 β—†πŸ—» β—†πŸ”¬ β¬ŸπŸ’« 🎡🎯 β—†πŸŽ― β¬ŸπŸ’« β—†βš“ β—†πŸ”οΈ β—†βš“ πŸ’ŽπŸŒ€ β¬ŸπŸ”„ β—†πŸ”§ πŸ’ŽπŸŒ€ 🎡🎼, β—†βš“ β—†πŸ—» β¬ŸπŸ”„ 🌸πŸ₯ 🎡🎯 ◆⛰️ β—†πŸ”§ β—†πŸ”§ β—†βš“ πŸ’ŽπŸŒ€ β¬ŸπŸ”„ β¬ŸπŸ’« β—†πŸŒŠ πŸŒ€βš‘ πŸ’ŽπŸŒ€ 🎡🎼, 🎡🎼, 🎡🎯 β¬ŸπŸ”„ 🎡🎯 β—†βš“ πŸ’ŽπŸŒ€ πŸ’ŽπŸŒ€ β—†πŸ”§ β—†βš“ β¬ŸπŸ”„ β¬ŸπŸ”„ β—†πŸ”§ β¬ŸπŸ’« β—†πŸ”§ β¬ŸπŸ”„ πŸŒΈβ›·οΈ β¬ŸπŸ”„ πŸŒΈβ›·οΈ πŸ’ŽπŸŒ€ β—‡πŸ›‘

Gene Report


πŸ”¬ RPLL_GENE
   Function: πŸ‘‘ COORDINATOR (Geometric Controller)
   Total Codons: 122, Functional: 122
   Pattern Distribution:
      Pattern 3 (Structural (Simple)): 5 (4.1%)
      Pattern 5 (Flow (Bonding)): 13 (10.7%)
      Pattern 20 (Complex (Coordination)): 53 (43.4%)
      Pattern 201 (Spiral Threaders (φ¹ Harmonics)): 2 (1.6%)
      Pattern 202 (Pentagon Ricochets (φ² Harmonics)): 22 (18.0%)
      Pattern 203 (Fibonacci Pilers (φ³ Harmonics)): 1 (0.8%)
      Pattern 204 (Golden Harmonic Resonators (φ⁴ Harmonics)): 13 (10.7%)
      Pattern 205 (Geometric Controllers (Ο†βˆž Harmonics)): 13 (10.7%)
      Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
   Flow/Structure Ratio: 2.60 - βš–οΈ  Moderate flow structure balance
   Folding Strategy: πŸ”„ COMPLEX FOLDING (Multi-domain coordination)
   Bonding Sites: 66
      Early bonds: 21 (avg distance: 53.4)
      Middle bonds: 35 (avg distance: 25.6)
      Late bonds: 10 (avg distance: 10.1)

  πŸ”— Protein Folding - Bond/Coordination Candidates:
      🐰 @7   (203+1 :CAA) πŸͺž          12, 20(-1), 33, 46, 67(-1), 69(-2)  ↔ To @(5+4 GTT)             
      🐒 @11  (204+2 :GCA) πŸͺž          74(-4)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 13, 26, 72, 76, 91, 104, 106  ↔ To @(204+2 GCA)
      🐰 @12  (5+4   :GTT) πŸͺž          7  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 20, 33, 46, 67, 69  ↔ To @(5+4 GTT)
      🐒 @13  (204+2 :GCA) πŸͺž          74(-4)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 26, 72, 76, 91, 104, 106  ↔ To @(204+2 GCA)
      🐰 @19  (204+1 :GAC) πŸͺž          23, 59(-2), 79, 81(-2), 87(-6), 95(-2), 107(-4), 111(-2)  ↔ To @(20+1 CTG) <> πŸ”΄βš™οΈ βš™οΈ  High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 5, 30, 52, 56, 60...,102, 103,  108, 109  ↔ To @(204+1, 205+1 AAA, GAC)
      🐷 @20  (5+4   :GTT) πŸͺž          7(-1)  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 12, 33, 46, 67, 69, 118  ↔ To @(5+4 GTT)
      🐰 @23  (20+1  :CTG) πŸͺž          19, 56(-2), 86(-2), 102, 103(-1)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 59, 79, 81, 87, 95, 107, 111  ↔ To @(20+1 CTG)
      🐒 @26  (204+2 :GCA) πŸͺž          74(-4)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 72, 76, 91, 104, 106  ↔ To @(204+2 GCA)
      🐷 @33  (5+4   :GTT) πŸͺž          7  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 12, 20, 46, 67, 69, 118, 120  ↔ To @(5+4 GTT)
      🐰 @44  (202+5 :GGC) πŸͺž          45(4), 92(-6)  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 63, 75, 78, 98, 115  ↔ To @(202+5 GGC)
      🐰 @45  (20+14 :CCG) πŸͺž          44(4), 63(-4), 75(-2), 78(-2), 98(-3), 115(-4)  ↔ To @(202+5 GGC) <> πŸ”΄ High Energy Collision 92  ↔ To @(20+14 CCG)
      🐒 @46  (5+4   :GTT) πŸͺž          7  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 12, 20, 33, 67, 69, 118, 120  ↔ To @(5+4 GTT)
      🐰 @56  (204+1 :GAC) πŸͺž          23(-2), 59(-2), 79, 81(-2), 87(-6), 95(-2), 107(-4), 111(-3)  ↔ To @(20+1 CTG) <> πŸ”΄βš™οΈ βš™οΈ  High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 5, 19, 30, 52, 60...,103, 108,  109, 121  ↔ To @(204+1, 205+1 AAA, GAC)
      🐰 @59  (20+1  :CTG) πŸͺž          19(-2), 56(-2), 86(-4), 102(-6), 103(-5)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 79, 81, 87, 95, 107, 111  ↔ To @(20+1 CTG)
      🐷 @63  (202+5 :GGC) πŸͺž          45(-4), 92(-7)  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 44, 75, 78, 98, 115  ↔ To @(202+5 GGC)
      🐒 @67  (5+4   :GTT) πŸͺž          7(-1)  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 12, 20, 33, 46, 69, 118, 120  ↔ To @(5+4 GTT)
      🐒 @69  (5+4   :GTT) πŸͺž          7(-2)  ↔ To @(203+1 CAA) <> πŸ”΄ High Energy Collision 12, 20, 33, 46, 67, 118, 120  ↔ To @(5+4 GTT)
      🐰 @72  (204+2 :GCA) πŸͺž          74(2)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 26, 76, 91, 104, 106  ↔ To @(204+2 GCA)
      🐰 @74  (20+16 :CGT) πŸͺž          11(-4), 13(-4), 26(-4), 72(2), 76(1), 91, 104(-4), 106(-4)  ↔ To @(204+2 GCA)             
      🐷 @75  (202+5 :GGC) πŸͺž          45(-2), 92(2)  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 44, 63, 78, 98, 115  ↔ To @(202+5 GGC)
      🐰 @76  (204+2 :GCA) πŸͺž          74(1)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 26, 72, 91, 104, 106  ↔ To @(204+2 GCA)
      🐷 @78  (202+5 :GGC) πŸͺž          45(-2), 92(-1)  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 44, 63, 75, 98, 115  ↔ To @(202+5 GGC)
      🐰 @79  (20+1  :CTG) πŸͺž          19, 56, 86(-3), 102(3), 103(3)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 81, 87, 95, 107, 111  ↔ To @(20+1 CTG)
      🐰 @81  (20+1  :CTG) πŸͺž          19(-2), 56(-2), 86(-7), 102(-3), 103(-2)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 79, 87, 95, 107, 111  ↔ To @(20+1 CTG)
      🐰 @86  (204+1 :GAC) πŸͺž          23(-2), 59(-4), 79(-3), 81(-7), 87, 95(-7), 107(-9), 111(-6)  ↔ To @(20+1 CTG) <> πŸ”΄βš™οΈ βš™οΈ  High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 5, 19, 30, 52, 56...,103, 108,  109, 121  ↔ To @(204+1, 205+1 AAA, GAC)
      🐰 @87  (20+1  :CTG) πŸͺž          19(-6), 56(-6), 86, 102(-10), 103(-8)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 79, 81, 95, 107, 111  ↔ To @(20+1 CTG)
      🐷 @91  (204+2 :GCA) πŸͺž          74  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 26, 72, 76, 104, 106  ↔ To @(204+2 GCA)
      🐰 @92  (20+14 :CCG) πŸͺž          44(-6), 63(-7), 75(2), 78(-1), 98, 115(-6)  ↔ To @(202+5 GGC) <> πŸ”΄ High Energy Collision 45  ↔ To @(20+14 CCG)
      🐰 @95  (20+1  :CTG) πŸͺž          19(-2), 56(-2), 86(-7), 102(-6), 103(-5)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 79, 81, 87, 107, 111  ↔ To @(20+1 CTG)
      🐰 @98  (202+5 :GGC) πŸͺž          45(-3), 92  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 44, 63, 75, 78, 115  ↔ To @(202+5 GGC)
      🐰 @102 (204+1 :GAC) πŸͺž          23, 59(-6), 79(3), 81(-3), 87(-10), 95(-6), 107(-11), 111(-4)  ↔ To @(20+1 CTG) <> πŸ”΄βš™οΈ βš™οΈ  High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 5, 19, 30, 52, 56...,103, 108,  109, 121  ↔ To @(204+1, 205+1 AAA, GAC)
      🐰 @103 (204+1 :GAC) πŸͺž          23(-1), 59(-5), 79(3), 81(-2), 87(-8), 95(-5), 107(-10), 111(-4)  ↔ To @(20+1 CTG) <> πŸ”΄βš™οΈ βš™οΈ  High Energy Collision + Unknown Coordination 204+1 205+1 + Unknown Coordination 205+1 204+1 5, 19, 30, 52, 56...,102, 108,  109, 121  ↔ To @(204+1, 205+1 AAA, GAC)
      🐒 @104 (204+2 :GCA) πŸͺž          74(-4)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 26, 72, 76, 91, 106  ↔ To @(204+2 GCA)
      🐒 @106 (204+2 :GCA) πŸͺž          74(-4)  ↔ To @(20+16 CGT) <> πŸ”΄ High Energy Collision 11, 13, 26, 72, 76, 91, 104  ↔ To @(204+2 GCA)
      🐰 @107 (20+1  :CTG) πŸͺž          19(-4), 56(-4), 86(-9), 102(-11), 103(-10)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 79, 81, 87, 95, 111  ↔ To @(20+1 CTG)
      🐰 @111 (20+1  :CTG) πŸͺž          19(-2), 56(-3), 86(-6), 102(-4), 103(-4)  ↔ To @(204+1 GAC) <> πŸ”΄ High Energy Collision 23, 59, 79, 81, 87, 95, 107  ↔ To @(20+1 CTG)
      🐷 @115 (202+5 :GGC) πŸͺž          45(-4), 92(-6)  ↔ To @(20+14 CCG) <> πŸ”΄ High Energy Collision 44, 63, 75, 78, 98  ↔ To @(202+5 GGC)

   πŸ”— Inter-Protein Assembly Analysis:
      Partners analyzed: 1
      Assembly prediction: Tight Assembly
   πŸ”— Inter-Protein Candidates:
         🐷 @1   (20+5:ATG) πŸͺž Opposites    ↔ rplA_gene@21, 163, 208 20+8:TAC <> πŸ”΄ High Energy Collision 1, 8, 97, 109, 121, 137, 218 20+5:ATG
         🐰 @7   (203+1:CAA) πŸͺž Opposites    ↔ rplA_gene@10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT <> πŸ”΄ High Energy Collision 80 203+1:CAA
         🐰 @11  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐒 @12  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐰 @13  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐰 @15  (20+5:ATG) πŸͺž Opposites    ↔ rplA_gene@21, 163, 208 20+8:TAC <> πŸ”΄ High Energy Collision 1, 8, 97, 109, 121, 137, 218 20+5:ATG
         🐰 @18  (20+5:ATG) πŸͺž Opposites    ↔ rplA_gene@21, 163, 208 20+8:TAC <> πŸ”΄ High Energy Collision 1, 8, 97, 109, 121, 137, 218 20+5:ATG
         🐷 @19  (204+1:GAC) πŸͺž Opposites    ↔ rplA_gene@4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG <> πŸ”΄πŸŸ‘βš™οΈ  Opposites 3, 7, 12, 14, 19...,200, 205,  211, 225 204+1,204+5,205+1:AAA,CGC,GAC
         🐒 @20  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐰 @23  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐷 @26  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐰 @27  (20+5:ATG) πŸͺž Opposites    ↔ rplA_gene@21, 163, 208 20+8:TAC <> πŸ”΄ High Energy Collision 1, 8, 97, 109, 121, 137, 218 20+5:ATG
         🐷 @31  (3+7:TTC) πŸͺž Opposites    ↔ rplA_gene@6, 105, 210 201+1:AAG <> πŸ”΄ High Energy Collision 38 3+7:TTC
         🐒 @32  (20+25:GGT) πŸͺž Opposites    ↔ rplA_gene@138 203+4:CCA <> πŸ”΄ High Energy Collision 61, 68, 81, 96, 132, 143, 176, 219, 221 20+25:GGT
         🐒 @33  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐷 @34  (5+7:TCC) ∞ Flow Figure8 ↔ rplA_gene@5, 18, 79, 173, 174, 216, 217 5+8:ACC <> πŸ”΄ High Energy Collision 72, 215 5+7:TCC
         🐷 @44  (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐰 @45  (20+14:CCG) πŸͺž Opposites    ↔ rplA_gene@49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC <> πŸ”΄ High Energy Collision 66, 118, 133, 140, 147, 201 20+14:CCG
         🐒 @46  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐒 @55  (3+7:TTC) πŸͺž Opposites    ↔ rplA_gene@6, 105, 210 201+1:AAG <> πŸ”΄ High Energy Collision 38 3+7:TTC
         🐰 @56  (204+1:GAC) πŸͺž Opposites    ↔ rplA_gene@4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG <> πŸ”΄πŸŸ‘βš™οΈ  Opposites 3, 7, 12, 14, 19...,200, 205,  211, 225 204+1,204+5,205+1:AAA,CGC,GAC
         🐰 @59  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐰 @63  (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐷 @67  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐷 @69  (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐰 @72  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐰 @74  (20+16:CGT) πŸͺž Opposites    ↔ rplA_gene@17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA <> πŸ”΄ High Energy Collision 9, 53, 60, 71, 162, 164 20+16:CGT
         🐰 @75  (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐰 @76  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐷 @78  (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐷 @79  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐒 @80  (20+25:GGT) πŸͺž Opposites    ↔ rplA_gene@138 203+4:CCA <> πŸ”΄ High Energy Collision 61, 68, 81, 96, 132, 143, 176, 219, 221 20+25:GGT
         🐷 @81  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐰 @86  (204+1:GAC) πŸͺž Opposites    ↔ rplA_gene@4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG <> πŸ”΄πŸŸ‘βš™οΈ  Opposites 3, 7, 12, 14, 19...,200, 205,  211, 225 204+1,204+5,205+1:AAA,CGC,GAC
         🐷 @87  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐷 @91  (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐰 @92  (20+14:CCG) πŸͺž Opposites    ↔ rplA_gene@49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC <> πŸ”΄ High Energy Collision 66, 118, 133, 140, 147, 201 20+14:CCG
         🐰 @95  (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐷 @98  (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐒 @99  (20+23:GTG) πŸͺž Opposites    ↔ rplA_gene@67, 172 20+13:CAC <> πŸ”΄ High Energy Collision 42, 142, 178, 207 20+23:GTG
         🐰 @102 (204+1:GAC) πŸͺž Opposites    ↔ rplA_gene@4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG <> πŸ”΄πŸŸ‘βš™οΈ  Opposites 3, 7, 12, 14, 19...,200, 205,  211, 225 204+1,204+5,205+1:AAA,CGC,GAC
         🐰 @103 (204+1:GAC) πŸͺž Opposites    ↔ rplA_gene@4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG <> πŸ”΄πŸŸ‘βš™οΈ  Opposites 3, 7, 12, 14, 19...,200, 205,  211, 225 204+1,204+5,205+1:AAA,CGC,GAC
         🐒 @104 (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐒 @106 (204+2:GCA) πŸͺž Opposites    ↔ rplA_gene@9, 53, 60, 71, 162, 164 20+16:CGT <> πŸ”΄ High Energy Collision 17, 28, 62, 82, 90, 92, 120, 199, 220, 223 204+2:GCA
         🐰 @107 (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐰 @111 (20+1:CTG) πŸͺž Opposites    ↔ rplA_gene@22, 43, 51, 56, 102...,179, 181,  183, 225 204+1:GAC <> πŸ”΄ High Energy Collision 4, 29, 30, 33, 65...,192, 193,  196, 229 20+1:CTG
         🐰 @115 (202+5:GGC) πŸͺž Opposites    ↔ rplA_gene@66, 118, 133, 140, 147, 201 20+14:CCG <> πŸ”΄ High Energy Collision 49, 70, 91, 107, 125...,159, 169,  206, 228 202+5:GGC
         🐒 @118 (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
         🐒 @120 (5+4:GTT) πŸͺž Opposites    ↔ rplA_gene@80 203+1:CAA <> πŸ”΄ High Energy Collision 10, 15, 46, 73, 113...,194, 212,  222, 224 5+4:GTT
      πŸ’‘ Assembly Insights:
         β€’ Bond strength: unknown
         β€’ Coordination type: unknown
No rna features found for partner gene: {partner_sequence['gene_id']}

Free Open Source

Download the genetic rhythm analyzer, a Python program using the codon mapping model.

Rendered with Quarto from a template generated by the analyzer.

Include your own metadata and translations. Tune this discordant rough draft of the notes, the grammar, the science. Find more fidelity in Gaia’s symphony.