rpsF GENE
rpsF
Gene type: protein
organism=Escherichia coli str. K-12 substr. MG1655
Gene - Raw genomic sequence with all regulatory regions
β 132 codons, 132 functional, 101 bonds
Pattern Distribution:
Pattern 3 (Structural (Simple)): 6 (4.5%)
Pattern 5 (Flow (Bonding)): 16 (12.1%)
Pattern 20 (Complex (Coordination)): 58 (43.9%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 8 (6.1%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 19 (14.4%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 4 (3.0%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 16 (12.1%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 5 (3.8%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
https://www.ncbi.nlm.nih.gov/datasets/gene/948723/
rpsF - 30S ribosomal subunit protein S6
BETA
Escherichia coli str. K-12 substr. MG1655
Gene name
30S ribosomal subunit protein S6
Symbol
rpsF
Gene ID
948723
Locus tag
b4200
Organism
Escherichia coli str. K-12 substr. MG1655
Gene type
protein-coding
Synonym
ECK4196, sdgH
Proteins
1
Refseq summary
RpsF is modified posttranslationally by RimK, which adds four glutamic acid residues to the RpsF C-terminus. [More information is available at EcoGene: EG10905]. The S6 protein is a component of the 30S subunit of the ribosome. [More information is available at EcoCyc: EG10905].
π΅ RpsF = THE Harmonic Conductor**
- 1 Partner (RpsC): 185 bonds + 179 guidance = 364 total interactions
- 2 Partners (RpsC+RpsE): 286 bonds + 282 guidance = 568 total interactions
- 3 Partners (RpsC+RpsE+RpsD): 506 bonds + 439 guidance = 945 total interactions
Position 4 = Harmonic Resonance Hub:
- RpsC: Geometric Resonance (Harmonic Tuning)
- RpsD: Geometric Resonance (Harmonic Tuning)
- Universal Οβ΄ coordination!
Position 9 = Flow Figure8 Hub:
- RpsC: Flow Figure8 (Dynamic Coordination)
- Creates fluid assembly dynamics!
Position 11 = Structural Lock Hub:
- RpsE: Structural Lock Key (Primary Anchor)
- Foundation assembly locks!
Position 12 = Master Guidance Hub:
- ALL PARTNERS: Harmonic Master Guidance
- Universal assembly conductor!
RpsF has Specialized Positions for different assembly functions: - Position 4: Οβ΄ harmonic coordination - Position 9: Figure-8 flow dynamics
- Position 11: Structural anchoring - Position 12: Master assembly guidance
This is the universeβs ASSEMBLY SWITCHBOARD! ποΈ
πβπ βπ¬ βποΈ ββ΅ β¬π βπͺ πΈβ·οΈ ππ΅ βπ πΈπ βποΈ βποΈ π΅πΌ, ππΏ πβ‘ β¬π ππΏ πΈβ·οΈ ββ°οΈ β¬π« βπ βπͺ β¬β π΅π ββ΅ βπ― βπ§ π΅π« βπͺ βπ― βποΈ π΅π― β¬π β¬π« πππͺοΈ βπͺ βπͺ¨ βπ¬ ββ β¬π π΅πΌ, πΈπ β¬π« π΅π βπ¬ ππΏ ββ βπ§ ββ΅ ββ°οΈ βπͺ π𧬠ππ ββ βπͺ¨ ππ π΅π― βπͺ¨ ββ΅ πΈβ·οΈ ββ βπ βπ πΈβ·οΈ β¬π βπ§ ββ°οΈ ππΏ β¬π βπ βπͺ βπ₯ β¬β ββ β¬π βπ― πΈπ βπ΅ π΅π βπ΅ π𧬠βπ₯ π΅π« πΈβ·οΈ βπͺ π΅π πβ‘ βπ πΈβ·οΈ βπ βπ¬ πΈπ πππͺοΈ βπͺ¨ βπ§ πΈβ·οΈ πΈπ β¬π π΅π― πΈπ₯ ββ°οΈ βπ πΈβ·οΈ ππ π΅π₯ ππ π΅πΌ, β¬β π΅π βπ¬ β¬β βπ¬ π΅π βπ₯ βπ₯ βπ΅ π΅π― π𧬠β¬π πΈπ βπ§ βπ₯ βπ₯ βπ§ β¬π βπ§ ππ βπ₯ πΈπ₯ β¬π β¬β βπ
Gene Report
π¬ RPSF_GENE
Function: π΅ HARMONIC TUNER (Frequency Coordination)
Total Codons: 132, Functional: 132
Pattern Distribution:
Pattern 3 (Structural (Simple)): 6 (4.5%)
Pattern 5 (Flow (Bonding)): 16 (12.1%)
Pattern 20 (Complex (Coordination)): 58 (43.9%)
Pattern 201 (Spiral Threaders (ΟΒΉ Harmonics)): 8 (6.1%)
Pattern 202 (Pentagon Ricochets (ΟΒ² Harmonics)): 19 (14.4%)
Pattern 203 (Fibonacci Pilers (ΟΒ³ Harmonics)): 4 (3.0%)
Pattern 204 (Golden Harmonic Resonators (Οβ΄ Harmonics)): 16 (12.1%)
Pattern 205 (Geometric Controllers (Οβ Harmonics)): 5 (3.8%)
Junk 66 (DNA's Highway - navigating, timing, scaling, control): 0 (0.0%)
Flow/Structure Ratio: 2.67 - βοΈ Moderate flow structure balance
Folding Strategy: π COMPLEX FOLDING (Multi-domain coordination)
Bonding Sites: 101
Early bonds: 59 (avg distance: 44.5)
Middle bonds: 36 (avg distance: 31.3)
Late bonds: 6 (avg distance: 8.0)
π Protein Folding - Bond/Coordination Candidates:
π° @1 (20+5 :ATG) πͺ 4, 25, 49, 59(3) β To @(20+8 TAC) <> π΄ High Energy Collision 9, 21, 62, 88, 90 β To @(20+5 ATG)
π’ @2 (20+16 :CGT) πͺ 32, 57(3), 99 β To @(204+2 GCA) <> π΄ High Energy Collision 38, 45, 91 β To @(20+16 CGT)
π° @4 (20+8 :TAC) πͺ 1, 9(-1), 21(-2), 62, 88, 90(-1), 102(1) β To @(20+5 ATG) <> π΄ High Energy Collision 25, 49, 59 β To @(20+8 TAC)
π° @9 (20+5 :ATG) πͺ 4(-1), 25, 49(2), 59(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 21, 62, 88, 90, 102 β To @(20+5 ATG)
π° @10 (5+6 :GTC) βπͺ Flow Figure8 + Opposites14, 17, 42, 46, 68 β To @(203+2, 5+5 CAG, TGG)
π’ @12 (3+8 :CCT) π 78(-2), 80(-2) β To @(3+7 TTC)
π· @13 (204+1 :GAC) πͺ 39(-2), 47, 54(-4), 61, 74 β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 24, 41, 44, 53, 56...,104, 106, 107, 109 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π° @14 (203+2 :CAG) πͺ 10 β To @(5+6 GTC) <> π΄ High Energy Collision 17, 46, 68 β To @(203+2 CAG)
π° @17 (203+2 :CAG) πͺ 10 β To @(5+6 GTC) <> π΄ High Energy Collision 14, 46, 68 β To @(203+2 CAG)
π° @19 (20+14 :CCG) πͺ 20(4), 34(-2), 43(-2) β To @(202+5 GGC) <> π΄ High Energy Collision 50, 67, 101 β To @(20+14 CCG)
π° @20 (202+5 :GGC) πͺ 19(4), 50(1), 67(-2), 101(-4) β To @(20+14 CCG) <> π΄ High Energy Collision 34, 43 β To @(202+5 GGC)
π° @21 (20+5 :ATG) πͺ 4(-2), 25, 49(2), 59 β To @(20+8 TAC) <> π΄ High Energy Collision 1, 9, 62, 88, 90, 102 β To @(20+5 ATG)
π’ @24 (204+5 :CGC) πͺ 105 β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 13, 41, 44, 79, 86, 107, 109, 113 β To @(204+1, 204+5 CGC, GAC)
π° @25 (20+8 :TAC) πͺ 1, 9, 21, 62, 88(-1), 90, 102 β To @(20+5 ATG) <> π΄ High Energy Collision 4, 49, 59 β To @(20+8 TAC)
π° @32 (204+2 :GCA) πͺ 2, 38(-1), 45, 91, 110(-3), 112(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 57, 99, 117 β To @(204+2 GCA)
π· @34 (202+5 :GGC) πͺ 19(-2), 50(-1), 67(-2), 101 β To @(20+14 CCG) <> π΄ High Energy Collision 20, 43 β To @(202+5 GGC)
π’ @35 (201+1 :AAG) πͺ 78, 80, 116 β To @(3+7 TTC) <> π΄ High Energy Collision 93, 127 β To @(201+1, 201+5 AAG, GGG)
π’ @37 (20+13 :CAC) πͺ 70(-2) β To @(20+23 GTG) <> π΄ High Energy Collision 55, 58, 94 β To @(20+13 CAC)
π° @38 (20+16 :CGT) πͺ 32(-1), 57(-3), 99(-1), 117(2) β To @(204+2 GCA) <> π΄ High Energy Collision 2, 45, 91, 110, 112 β To @(20+16 CGT)
π° @39 (20+1 :CTG) πͺ 13(-2), 41(2), 107(-5) β To @(204+1 GAC) <> π΄ High Energy Collision 47, 54, 61, 74 β To @(20+1 CTG)
π° @41 (204+1 :GAC) πͺ 39(2), 47(-2), 54(-6), 61(-2), 74(-6) β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 204+1 205+1 13, 24, 44, 53, 56...,106, 107, 109, 113 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π’ @42 (5+5 :TGG) β 10 β To @(5+6 GTC)
π° @43 (202+5 :GGC) πͺ 19(-2), 50(1), 67, 101(2) β To @(20+14 CCG) <> π΄ High Energy Collision 20, 34 β To @(202+5 GGC)
π’ @44 (204+5 :CGC) πͺ 105(-2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 13, 24, 41, 79, 86, 107, 109, 113 β To @(204+1, 204+5 CGC, GAC)
π· @45 (20+16 :CGT) πͺ 32, 57, 99(2), 117 β To @(204+2 GCA) <> π΄ High Energy Collision 2, 38, 91, 110, 112 β To @(20+16 CGT)
π’ @46 (203+2 :CAG) πͺ 10 β To @(5+6 GTC) <> π΄ High Energy Collision 14, 17, 68 β To @(203+2 CAG)
π° @47 (20+1 :CTG) πͺ 13, 41(-2), 107(1) β To @(204+1 GAC) <> π΄ High Energy Collision 39, 54, 61, 74 β To @(20+1 CTG)
π· @49 (20+8 :TAC) πͺ 1, 9(2), 21(2), 62(-1), 88, 90, 102(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 4, 25, 59 β To @(20+8 TAC)
π° @50 (20+14 :CCG) πͺ 20(1), 34(-1), 43(1) β To @(202+5 GGC) <> π΄ High Energy Collision 19, 67, 101 β To @(20+14 CCG)
π· @54 (20+1 :CTG) πͺ 13(-4), 41(-6), 107(-7) β To @(204+1 GAC) <> π΄ High Energy Collision 39, 47, 61, 74 β To @(20+1 CTG)
π· @55 (20+13 :CAC) πͺ 70 β To @(20+23 GTG) <> π΄ High Energy Collision 37, 58, 94 β To @(20+13 CAC)
π· @57 (204+2 :GCA) πͺ 2(3), 38(-3), 45, 91(4), 110, 112 β To @(20+16 CGT) <> π΄ High Energy Collision 32, 99, 117 β To @(204+2 GCA)
π· @58 (20+13 :CAC) πͺ 70 β To @(20+23 GTG) <> π΄ High Energy Collision 37, 55, 94 β To @(20+13 CAC)
π° @59 (20+8 :TAC) πͺ 1(3), 9(-1), 21, 62(-1), 88(-2), 90(1), 102(-2) β To @(20+5 ATG) <> π΄ High Energy Collision 4, 25, 49 β To @(20+8 TAC)
π· @61 (20+1 :CTG) πͺ 13, 41(-2), 107 β To @(204+1 GAC) <> π΄ High Energy Collision 39, 47, 54, 74 β To @(20+1 CTG)
π° @62 (20+5 :ATG) πͺ 4, 25, 49(-1), 59(-1) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 9, 21, 88, 90, 102 β To @(20+5 ATG)
π· @67 (20+14 :CCG) πͺ 20(-2), 34(-2), 43 β To @(202+5 GGC) <> π΄ High Energy Collision 19, 50, 101 β To @(20+14 CCG)
π’ @68 (203+2 :CAG) πͺ 10 β To @(5+6 GTC) <> π΄ High Energy Collision 14, 17, 46 β To @(203+2 CAG)
π· @70 (20+23 :GTG) πͺ 37(-2), 55, 58, 94 β To @(20+13 CAC)
π’ @74 (20+1 :CTG) πͺ 13, 41(-6), 107(-4) β To @(204+1 GAC) <> π΄ High Energy Collision 39, 47, 54, 61 β To @(20+1 CTG)
π· @78 (3+7 :TTC) πͺπ Opposites + Structural Lock Key12(-2), 35, 93(-2) β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 80, 116 β To @(3+7 TTC)
π· @79 (204+5 :CGC) πͺ 105(-2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 13, 24, 41, 44, 86, 107, 109, 113 β To @(204+1, 204+5 CGC, GAC)
π· @80 (3+7 :TTC) πͺπ Opposites + Structural Lock Key12(-2), 35, 93 β To @(201+1, 3+8 AAG, CCT) <> π΄ High Energy Collision 78, 116 β To @(3+7 TTC)
π· @86 (204+5 :CGC) πͺ 105(-2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 13, 24, 41, 44, 79, 107, 109, 113 β To @(204+1, 204+5 CGC, GAC)
π· @88 (20+5 :ATG) πͺ 4, 25(-1), 49, 59(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 9, 21, 62, 90, 102 β To @(20+5 ATG)
π’ @90 (20+5 :ATG) πͺ 4(-1), 25, 49, 59(1) β To @(20+8 TAC) <> π΄ High Energy Collision 1, 9, 21, 62, 88, 102 β To @(20+5 ATG)
π° @91 (20+16 :CGT) πͺ 32, 57(4), 99(-1), 117(3) β To @(204+2 GCA) <> π΄ High Energy Collision 2, 38, 45, 110, 112 β To @(20+16 CGT)
π· @93 (201+1 :AAG) πͺ 78(-2), 80, 116(3) β To @(3+7 TTC) <> π΄ High Energy Collision 35, 127 β To @(201+1, 201+5 AAG, GGG)
π· @94 (20+13 :CAC) πͺ 70 β To @(20+23 GTG) <> π΄ High Energy Collision 37, 55, 58 β To @(20+13 CAC)
π° @99 (204+2 :GCA) πͺ 2, 38(-1), 45(2), 91(-1), 110(-3), 112(-2) β To @(20+16 CGT) <> π΄ High Energy Collision 32, 57, 117 β To @(204+2 GCA)
π’ @101 (20+14 :CCG) πͺ 20(-4), 34, 43(2) β To @(202+5 GGC) <> π΄ High Energy Collision 19, 50, 67 β To @(20+14 CCG)
π’ @102 (20+5 :ATG) πͺ 4(1), 25, 49(-2), 59(-2) β To @(20+8 TAC) <> π΄ High Energy Collision 9, 21, 62, 88, 90 β To @(20+5 ATG)
π° @105 (204+3 :GCG) πͺ 24, 44(-2), 79(-2), 86(-2), 109(-4), 113(-2) β To @(204+5 CGC)
π’ @107 (204+1 :GAC) πͺ 39(-5), 47(1), 54(-7), 61, 74(-4) β To @(20+1 CTG) <> π΄π‘βοΈ High Energy Collision + Medium Energy Guidance + Unknown Coordination 205+1 204+1 13, 24, 41, 44, 53...,104, 106, 109, 113 β To @(204+1, 204+5, 205+1 AAA, CGC, GAC)
π° @109 (204+5 :CGC) πͺ 105(-4) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 13, 24, 41, 44, 79, 86, 107, 113 β To @(204+1, 204+5 CGC, GAC)
π° @110 (20+16 :CGT) πͺ 32(-3), 57, 99(-3), 117(-1) β To @(204+2 GCA) <> π΄ High Energy Collision 38, 45, 91, 112 β To @(20+16 CGT)
π° @112 (20+16 :CGT) πͺ 32(-2), 57, 99(-2), 117(-1) β To @(204+2 GCA) <> π΄ High Energy Collision 38, 45, 91, 110 β To @(20+16 CGT)
π° @113 (204+5 :CGC) πͺ 105(-2) β To @(204+3 GCG) <> π΄π‘ High Energy Collision + Medium Energy Guidance 24, 41, 44, 79, 86, 107, 109 β To @(204+1, 204+5 CGC, GAC)
π· @116 (3+7 :TTC) πͺ 35, 93(3) β To @(201+1 AAG) <> π΄ High Energy Collision 78, 80 β To @(3+7 TTC)
π° @117 (204+2 :GCA) πͺ 38(2), 45, 91(3), 110(-1), 112(-1) β To @(20+16 CGT) <> π΄ High Energy Collision 32, 57, 99 β To @(204+2 GCA)
π Inter-Protein Assembly Analysis:
Partners analyzed: 1
Assembly prediction: Tight Assembly
π Inter-Protein Candidates:
π’ @1 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π’ @2 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π° @3 (20+2:CAT) πͺ Opposites β rpsC_gene@5, 15, 39, 52, 66, 84, 91, 138, 173, 195 20+22:GTA <> π΄ High Energy Collision 6 20+2:CAT
π° @4 (20+8:TAC) πͺ Opposites β rpsC_gene@1, 129, 134, 142, 211 20+5:ATG <> π΄ High Energy Collision 42, 168, 184, 193 20+8:TAC
π’ @7 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π’ @9 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π° @10 (5+6:GTC) βπͺ Flow Figure8 + Opposites β rpsC_gene@3, 18, 22, 41, 100...,201, 223, 227, 228 203+2,5+5:CAG,TGG <> π΄ High Energy Collision 90 5+6:GTC
π° @11 (20+2:CAT) πͺ Opposites β rpsC_gene@5, 15, 39, 52, 66, 84, 91, 138, 173, 195 20+22:GTA <> π΄ High Energy Collision 6 20+2:CAT
π· @12 (3+8:CCT) π Structural Lock Key β rpsC_gene@29, 130, 203 3+7:TTC <> π΄ High Energy Collision 7, 98, 109, 224 3+8:CCT
π° @13 (204+1:GAC) πͺ Opposites β rpsC_gene@12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG <> π΄π‘βοΈ Opposites 4, 11, 16, 27, 31...,219, 225, 230, 233 204+1,204+5,205+1:AAA,CGC,GAC
π’ @14 (203+2:CAG) πͺ Opposites β rpsC_gene@90 5+6:GTC <> π΄ High Energy Collision 3, 41, 100, 123, 139, 223, 227, 228 203+2:CAG
π’ @17 (203+2:CAG) πͺ Opposites β rpsC_gene@90 5+6:GTC <> π΄ High Energy Collision 3, 41, 100, 123, 139, 223, 227, 228 203+2:CAG
π’ @18 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π’ @19 (20+14:CCG) πͺ Opposites β rpsC_gene@96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC <> π΄ High Energy Collision 60, 73, 174, 217, 220 20+14:CCG
π’ @20 (202+5:GGC) πͺ Opposites β rpsC_gene@60, 73, 174, 217, 220 20+14:CCG <> π΄ High Energy Collision 96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC
π· @21 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π° @24 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π· @25 (20+8:TAC) πͺ Opposites β rpsC_gene@1, 129, 134, 142, 211 20+5:ATG <> π΄ High Energy Collision 42, 168, 184, 193 20+8:TAC
π· @31 (20+25:GGT) πͺ Opposites β rpsC_gene@17 203+4:CCA <> π΄ High Energy Collision 2, 9, 13, 74, 78...,171, 194, 209, 210 20+25:GGT
π° @32 (204+2:GCA) πͺ Opposites β rpsC_gene@40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT <> π΄ High Energy Collision 99, 113, 141, 163 204+2:GCA
π· @34 (202+5:GGC) πͺ Opposites β rpsC_gene@60, 73, 174, 217, 220 20+14:CCG <> π΄ High Energy Collision 96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC
π° @35 (201+1:AAG) πͺ Opposites β rpsC_gene@29, 130, 203 3+7:TTC <> π΄ High Energy Collision 45, 62, 89, 108, 135, 226 201+1:AAG
π’ @37 (20+13:CAC) πͺ Opposites β rpsC_gene@200 20+23:GTG <> π΄ High Energy Collision 69, 176, 190 20+13:CAC
π’ @38 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π° @39 (20+1:CTG) πͺ Opposites β rpsC_gene@31, 34, 83, 93, 112, 118, 181, 183 204+1:GAC <> π΄ High Energy Collision 12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG
π° @41 (204+1:GAC) πͺ Opposites β rpsC_gene@12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG <> π΄π‘βοΈ Opposites 4, 11, 16, 27, 31...,219, 225, 230, 233 204+1,204+5,205+1:AAA,CGC,GAC
π’ @42 (5+5:TGG) β Flow Figure8 β rpsC_gene@90 5+6:GTC <> π΄ High Energy Collision 18, 22, 167, 201 5+5:TGG
π· @43 (202+5:GGC) πͺ Opposites β rpsC_gene@60, 73, 174, 217, 220 20+14:CCG <> π΄ High Energy Collision 96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC
π° @44 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π’ @45 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π’ @46 (203+2:CAG) πͺ Opposites β rpsC_gene@90 5+6:GTC <> π΄ High Energy Collision 3, 41, 100, 123, 139, 223, 227, 228 203+2:CAG
π· @47 (20+1:CTG) πͺ Opposites β rpsC_gene@31, 34, 83, 93, 112, 118, 181, 183 204+1:GAC <> π΄ High Energy Collision 12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG
π’ @49 (20+8:TAC) πͺ Opposites β rpsC_gene@1, 129, 134, 142, 211 20+5:ATG <> π΄ High Energy Collision 42, 168, 184, 193 20+8:TAC
π’ @50 (20+14:CCG) πͺ Opposites β rpsC_gene@96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC <> π΄ High Energy Collision 60, 73, 174, 217, 220 20+14:CCG
π· @54 (20+1:CTG) πͺ Opposites β rpsC_gene@31, 34, 83, 93, 112, 118, 181, 183 204+1:GAC <> π΄ High Energy Collision 12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG
π’ @55 (20+13:CAC) πͺ Opposites β rpsC_gene@200 20+23:GTG <> π΄ High Energy Collision 69, 176, 190 20+13:CAC
π° @57 (204+2:GCA) πͺ Opposites β rpsC_gene@40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT <> π΄ High Energy Collision 99, 113, 141, 163 204+2:GCA
π’ @58 (20+13:CAC) πͺ Opposites β rpsC_gene@200 20+23:GTG <> π΄ High Energy Collision 69, 176, 190 20+13:CAC
π’ @59 (20+8:TAC) πͺ Opposites β rpsC_gene@1, 129, 134, 142, 211 20+5:ATG <> π΄ High Energy Collision 42, 168, 184, 193 20+8:TAC
π’ @60 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π· @61 (20+1:CTG) πͺ Opposites β rpsC_gene@31, 34, 83, 93, 112, 118, 181, 183 204+1:GAC <> π΄ High Energy Collision 12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG
π· @62 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π’ @64 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π· @67 (20+14:CCG) πͺ Opposites β rpsC_gene@96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC <> π΄ High Energy Collision 60, 73, 174, 217, 220 20+14:CCG
π· @68 (203+2:CAG) πͺ Opposites β rpsC_gene@90 5+6:GTC <> π΄ High Energy Collision 3, 41, 100, 123, 139, 223, 227, 228 203+2:CAG
π° @70 (20+23:GTG) πͺ Opposites β rpsC_gene@69, 176, 190 20+13:CAC <> π΄ High Energy Collision 200 20+23:GTG
π° @74 (20+1:CTG) πͺ Opposites β rpsC_gene@31, 34, 83, 93, 112, 118, 181, 183 204+1:GAC <> π΄ High Energy Collision 12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG
π· @77 (5+8:ACC) β Flow Figure8 β rpsC_gene@51 5+7:TCC <> π΄ High Energy Collision 21, 26, 67, 165, 186, 191 5+8:ACC
π· @78 (3+7:TTC) πͺπ Opposites + Structural Lock Key β rpsC_gene@7, 45, 62, 89, 98, 108, 109, 135, 224, 226 201+1,3+8:AAG,CCT <> π΄ High Energy Collision 29, 130, 203 3+7:TTC
π· @79 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π° @80 (3+7:TTC) πͺπ Opposites + Structural Lock Key β rpsC_gene@7, 45, 62, 89, 98, 108, 109, 135, 224, 226 201+1,3+8:AAG,CCT <> π΄ High Energy Collision 29, 130, 203 3+7:TTC
π’ @84 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π° @86 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π’ @88 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π’ @89 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π’ @90 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π° @91 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π’ @92 (5+8:ACC) β Flow Figure8 β rpsC_gene@51 5+7:TCC <> π΄ High Energy Collision 21, 26, 67, 165, 186, 191 5+8:ACC
π’ @93 (201+1:AAG) πͺ Opposites β rpsC_gene@29, 130, 203 3+7:TTC <> π΄ High Energy Collision 45, 62, 89, 108, 135, 226 201+1:AAG
π’ @94 (20+13:CAC) πͺ Opposites β rpsC_gene@200 20+23:GTG <> π΄ High Energy Collision 69, 176, 190 20+13:CAC
π’ @96 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π’ @97 (5+8:ACC) β Flow Figure8 β rpsC_gene@51 5+7:TCC <> π΄ High Energy Collision 21, 26, 67, 165, 186, 191 5+8:ACC
π° @99 (204+2:GCA) πͺ Opposites β rpsC_gene@40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT <> π΄ High Energy Collision 99, 113, 141, 163 204+2:GCA
π° @101 (20+14:CCG) πͺ Opposites β rpsC_gene@96, 145, 155, 158, 159, 197, 205, 231 202+5:GGC <> π΄ High Energy Collision 60, 73, 174, 217, 220 20+14:CCG
π’ @102 (20+5:ATG) πͺ Opposites β rpsC_gene@42, 168, 184, 193 20+8:TAC <> π΄ High Energy Collision 1, 129, 134, 142, 211 20+5:ATG
π’ @103 (5+4:GTT) πͺ Opposites β rpsC_gene@216 203+1:CAA <> π΄ High Energy Collision 56, 76, 97, 106, 116, 128, 151, 153, 198, 214 5+4:GTT
π· @105 (204+3:GCG) πͺ Opposites β rpsC_gene@11, 72, 127, 169, 172 204+5:CGC <> π΄ High Energy Collision 24, 50, 92, 160, 189 204+3:GCG
π° @107 (204+1:GAC) πͺ Opposites β rpsC_gene@12, 33, 43, 47, 87...,157, 175, 178, 208 20+1:CTG <> π΄π‘βοΈ Opposites 4, 11, 16, 27, 31...,219, 225, 230, 233 204+1,204+5,205+1:AAA,CGC,GAC
π· @109 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π° @110 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π° @112 (20+16:CGT) πͺ Opposites β rpsC_gene@99, 113, 141, 163 204+2:GCA <> π΄ High Energy Collision 40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT
π· @113 (204+5:CGC) πͺ Opposites β rpsC_gene@24, 50, 92, 160, 189 204+3:GCG <> π΄π‘ Opposites 11, 31, 34, 72, 83...,169, 172, 181, 183 204+1,204+5:CGC,GAC
π° @116 (3+7:TTC) πͺπ Opposites + Structural Lock Key β rpsC_gene@7, 45, 62, 89, 98, 108, 109, 135, 224, 226 201+1,3+8:AAG,CCT <> π΄ High Energy Collision 29, 130, 203 3+7:TTC
π° @117 (204+2:GCA) πͺ Opposites β rpsC_gene@40, 54, 59, 65, 88...,164, 179, 229, 232 20+16:CGT <> π΄ High Energy Collision 99, 113, 141, 163 204+2:GCA
π’ @120 (5+8:ACC) β Flow Figure8 β rpsC_gene@51 5+7:TCC <> π΄ High Energy Collision 21, 26, 67, 165, 186, 191 5+8:ACC
π‘ Assembly Insights:
β’ Bond strength: unknown
β’ Coordination type: unknown
No rna features found for partner gene: {partner_sequence['gene_id']}
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