Chy7G135140 (gene) Cucumber (hystrix) v1

Overview
NameChy7G135140
Typegene
OrganismCucumis hystrix (Cucumber (hystrix) v1)
DescriptionrRNA adenine N(6)-methyltransferase
LocationchrH07: 6645544 .. 6654268 (-)
RNA-Seq ExpressionChy7G135140
SyntenyChy7G135140
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATTAGTTGTTTTGGAGGTTGCCTTTAGAAGTTGGGGAAGCGAAGCTGCGAGCAGTTGTGTGCATCAACCCAAGGGAATGGGAATCAGACAAAGGGCTTGACAGCAGTGCAGTGATGAGGTAGGAGTAGAGGCTTCGTAGAGGATGCACGCTCCATCCGGAGGCTCTGTGGTTCACAAAACACACATCAAATGCACCACCAATTCTTCCTCCAATGTATGTGCAACATGCATGTGCAAAACAATAACAAAATAAACACTTGCATTTACATTCTTAAAAAATAATATTATAAGATCAAAAATTGAGAGAAAAAAAAAGGATTGAATTGAACAAAATGAGTAATTAATGCATTATTTTGTATGATTTTACAATAAATATATATAATATTATTTATTATAGGCTAAAAAAATTACCATTTCAAAAAATAATCAAAACTACAAGATTTTATGTGAATTGCACGTGCTTCTTGATTAGTTAATTAGTTAATTATAAAATGCTAAATTATAAAAAAATGTTCATTAACTTTGTCAGGTAAAAAATACTCATAAATGTAAACGTAAAAATAAGTTAAAATATACTTTCATTAGTCCAGTATTTACACCGAATTTTTTAGCACCCAAAATAAAAACAAAAAATTTAAGTTGAAACTATAGTATTAAATTTTGATTGATATATGTCAATATTTTTATTGATATTTTCACATTTTCATGAGTTTAGTATCAATATGAAAGGTGAATCAACATCTCCATCTCATTGTAGAAAAATCAACAAATCACATGAAATAAATATTAAAATAATACTAATATAAGTATAATATAAATAATAGACATGCTACTTTGTTCAAAATAATAAAACATTCATTTAGTAATTTAAGTTTATTTTTTGAAATTTTGATTTTGTAACCTTTTAAAAATATCCATCGAAATATATCAATAGAAATAGAAAATTGGATTGATATTTTCATCAAAATTTATGTAAAAGTAACACTTTAATATATCTATCGACATTGATATTCTAAACCTTTAGTTAAAACATAATATTCCATTAAATCTCACCAATTTCTAAACTAAAATTTCTCCTTAAAACATACTCATTGATTAGTCAAATAAAAAACGTATACACAAACTAAATTATTAACATACAACTTTCATTAAAATATTTAAATCCTATAATTCTTTGGTGTTTCAATTATTTTCTTTATTCTAGTTAGAGCCAATATACCTTTACTAAAATGTGAAAATTTATTTATTTATTTATATTGAAGAAAAGAGGAGAGGAAAATAGAAGAAAAATACAGTATAAATAATTTGTGCTATACTAAATTGTGACATATTTATTTATTTGATTAGTTATTGTTTTAGTGTGTTTTAAGAAGAAAATTTTATTTTAGAATCTTTTGAGATTTTGTGGAATGTTATATTTTAACTTAAATATTTTGGTTGATGAGAAAATTGGTGTAAAATTTAGATTAACAAGAGTACTTTTGAATTTTTTTAATTATATTTATAAAACATTTTTTGATAGTTTAGGCGGATTTTGGGAAGTTTTATGGTTTTTATCCAAAACTAAGTAAAGTGTATTTTTGAATCTTTTTTAAAAGTTTAAAGATATTTTTGAAACTTTTAAAAATTTAAGAATATTTTTTATTGAAACTATAAAGTTGAAAGACATTTCCATGATTAACCATTATAAAATTAAAACATTTATGAATGAATCAATTTAGATTTTGAGTTTTGATTACTTTCAAAACTGTCCATGTGCATTACATTTTATTAAATCGATATTTGAAGAAGCGTACCAATATGATTGAAATTATATCGATTTGTAATAGTTTAGAGGTTTTGCATAATTTTTTCAAACTAAACTTGAAAAAGAAGCTTGAAATTTAAATTGATACAATAAATTGGAAATTTCACTGAAATTTATTTAAACATTAAAATGTTCAAATTTCTAAACATTTATGAAATCATGTTTGCAAAAGGGTTCTTTTAGCTGAAATGACAAAAACCAAAAGTTGCGCATTTTAAAAACTTACATTATTGTTTTTCTCGGACAATCAAGACCGGAATCGACTCTGAGATATAATGTAACTTCGTGTATAGAAGATTTATCCCAAATTTTTGTGAACATAGTAAAATGCATCATGGGATTAATTTTTTGATTGTGATGAAAATGCCCTCATAACTGAAAATATTATTATTATATTAAAAAATGAAATGACTTGCTTAGAAGTTTCACCATCAACTTTCAAGAAACACTTTACAATTGTTTCGGCTTTCTCTCATTTTCTTCCTCCCACATTTAATACCTTTCGAAGCTATCAAAGAAAATAAGGTGAATATAACTTACTGTTGTTTACAAATTACGTTTTTATTGTCATTTGCATATTGATTAGGCTATCAATAATTTCTTTTAGGTATTTTCGTACATAATCTCGGTTCTTATTTAAGAATCTCAGCCGAGTTGTTTTATATTTGTCCCAAGATTAGTATAGGGTTTCAAATCTCAGCCGAGTTTTAATGATTTCACCCTTAGATTTTGATTGTATTTTTAATTTTTCTTTACGTATTTGTAGAATGCCTTGTGTATTTGTTTGTTTTGGTGGGGAATGGAAAGAGGCTGAGAAAGAATACGTCAGAGGTCAAATGAAATGGTTGAATGTGGATGTTATATAAAATTTGAGGAGTTTTTAGGAAAAATTATATTAATGGAATAAATTCTGCTAATTATGAGTTGATTATGAGGTACTTCTATAACGTGAAACCCCTTATGTATGACTTTGTTATTAGTAATCAAGAAGATTTTCAAAAAAAAATTTAACTGAAGATGATGTGTCTCAAGTAGAAGTTTTGGTTTCGAAAGTATTAATTAGTACCTTTCAGTCAATATAGGAGTACTTCGACGGCATTTACTATTTCAATGGCCCCAAAAAACATTAAATTATTATCACGTGAGCTGAACGTTCAGTTAATCTCATAATACAATTGCTATCTTTGGATTCCTATGGGTTTTTCTGAGTTTGACATTTGGTATTTTTAATTTAGTTTTGGAGGATCGCGAGCTGCTGTTCAGCAGCAAGTAAAGGATTTTGATGATAGTTTTCAAGGATTTTTATCTTTACTTTTGAATCTACCCTAACCATAGATTATTTATGACAATGTGGTATTGAAATTTAAGTTCCTGATGAGTTTTATGAAAATAGTGTCAAATTTTATTACATAAATGAGTTGATCTTGTAGTATGGAGACTAAATCTTTACAAGTCAAAGATCTATGTTTCAACAACAATGGCAGGAGGCAAAATGGAAAAGGAGAAGGCAAATGCAGGGGCGAAGAATGCAACACCATTTCAAGGAGGGATTTCATTCCATAAATCCAAAGGCGAGCATATTCTCAAGAATCCCTTGCTTGTTGACTACATTTCAAATGTCTGGAACTAAGAGCATCGATGTGATACTCGAGACCGGTACTGGTAATCTCACTAAAAAGCTTTTAGAATGTGGGAAGATGGTTATTGCTGTCCAAATCGATCTTCAGATGGTTCTCGAGTTGTAGAGGCAGTTTCAGAACATCTTACTCTTCTCGCTTAATTAAGGTAGATTCATTAATTGGTTATTTCTCATCAGATGTGTGGTTGTGCTTGTTTAATTATGAATTTGAGTTTGTTGAACTTGAATAATAATTGACTAGTTCTTCAACTTGATGTGCTCAGTTTATTCAAGGAGATGTACAAGACTGAGCTTCCTAACAGGTACGTTACTGACAGCATAAATTCTAAGTTCTTTCTTGAGTTTGGTTGTGATAAATTTATTCTAAGTTCTTTGTTGAGTTCGACGGTAATAAATTTATAGATATTAGCAATTGTGAATTTTATAGGTATAATAAGTACAATCCGACAATCTTATCCAACCCATATTTTATAGGTTGAGTTGTAAAGTTTACATTATTTGTATTGCCAATCCATATAATCTAAAAATATGGGTTGGGCTCTTGCAAGCTGGAGTTAATTTTGTTGTTCAAATTGCACCATTGCTAAGTTTATTTGGCAACCTCTCCTTGTAGCAAGTATCTCACCTAACGGAGGTATCGAAGAAGATATTGGGGTTAAATTTTTTTTTGAAAAATTGATAAATATCGTTGATATATCCAAAATATTAGTGATATATCGTTTCTTGATGTTTATTATCCAGACGAGTTCCAAATTCCAATTAACGTGGATATATGGGAAAATTTTGGAGAGATTTTGGAGATATATCACAGATATATCACCAATAATCGTGGATATTTAACCGATATTAGGTGGATATTCTACAAATATTATGCGAATTTTCTATTTTTTTTAAATAAATCATTTCCCATCTCAAATTACCAAATAAAGTTTTCCAAAAATCAACACATTCCATACCCTCAATTTTCAAAATTGAATATCAAAATATTCTAAATTCTTCTTTCAATTTATAATATAAAATTTACCTTTATTAAATTGAATTTAAAAAAATTGTTTGAAGTAGAAGTCTTAACATGTATTTACTTTTGTGATGACTCATACTACAAGTATATCTTCCATTCCTAACTCTTCATATTGGATACTTGATTTTGGTGCATCAAAACATGTATGTTACGCATATTTTATTGGAAACAAATGTCAATTTTTGTTGTGCAGTGTTAAACCACTACCTTGAAAGCAAAATTCGACACGACCTTAGTGCTCAATCGCTTATGTTCACTACAACAAATTTGGTCTTTTTTGACGCATGCAAATTTTGATTTTTTTGATGGTCATGACAAAGGATCATCAAGAAAAATATTTTTTTTCATACAATGTTTATCTTGACAATCATGTACATCAAAAAAAATTTCCTTATTTTGTTGAAGAAATACAAAAAAAAAGTAAAAAATTGTGGATTCTTGATTTCGATGGGTAAAGTTCCCTTAGTTTTGTTGATGATCCACAAACGTGAAAAAACTATTTCTTGATAGACAATAAACATCAAGGATAATATATAATTAGTTGACGGACAATGCTCATCAAGTTAGTTAGGTTTTCTTGATAGACGAGACCATCAATGGATGAATTATCTTAATTTGCAATGGCCATCGTCGAAAAAAAATTAATATATCTGTTTTGGATTTCTTGATAGTTTTAGAATTTTCTTGATGAGTCTAGGGTTTCTTGATGAAAAAAAAAAAAAAAAACATGGGCAAAATCTATCAAGAAAAAAATATTTTTCATGAAGCACGAAATTTGAACCCTTGTTAACAAGCTCAGAAAACACAATATTCATCAATAATATTCTTAAATCTTTACTATTTTTTTCCAATTATTACTTTCTATTCATCAATAATACAATATTATTTTTTTAAAAGTTAACTGTTTTAATTAGAATTAAATTGAAATAAGTGACTATATCAAAATTAAATTAGTTATTGTGTTCAACTTTAACGAGTTGAATTGAAAATTTGTAATTTAAGATTTTTAAAATTTGTAAGTTAAGATTTTTAAAATTTGTAAAAAGTTGGACAACATGAGCTTAGTTCAACTAGCACCTGTAGACAAGAGGTCCCATGTTCAAATCCTCATCCCTGCATTTATTATCATTTACAAAAAAAATAAATAATAAATTTCAATGTTACAATTAAAGAATCATTGAGGAGGGAGAGAATCAAGATCATGAAGATGCCAATTAGCACGGAGCTAAGGTAGCTAAGGTTTTTATTTCCTTGATGGGGCAAAAAATATCGAAGTCCCCTTTCTTGATGGTCGATACCATCAAGAAAAAGTTTTTGATGACATGTTTTAACCATAAAGAAAACTAGTTTTCTTGATGGTCGGGTTTTCTTGATGTTTGCCTACTTGATGAGCAAAGACCATCATGACAGACATTTTTTTGACGTGCTTTGTGTCACGGACATATTTTTCCAAAGTGTGTTTACCTTTGGTTATATGCTCCGATTAGCTCCCACTTATCTTATCTTTAAGCACCATACTTAGTTTAGGCATTTGCATTTCATTTGTAGTCATAAAGCTTGGGTGTGACGTTTCAGCATTTTCATATGCAAGCCTACCAGAGCTGAAAATGTTCAAAATGTACTATAGGGGAGGCATACCAGTTGAATCCCCGCCCAAGCATTAGTTGTACTCTTTGCAAGCAACCCTTTTTCCTTGCAATTGACAGTCTTTAATGCTTATTGTAACGTCTATTTCAATGTATTTATTTCTTTCCCGCGTTTTATAAATAAATTTCCCAAGAACGCTAAGGAAGGTTACGACATACGTCGACGTTACCCACAACTTTCGAATTTTGATCGGCTGACTTGTTCATCGAGTTAGAACAAGTGCCGCACAATCGTCCGTCTCAAGGTTGAAACGCTACGATTGTGACAAGTGGTATCAGAGCCCAAGTTGGCTGAGCGACAGTTGAGACACAAGATGTCGGCTGCGAAACGTACGGGTAAGACCCATGATGAATGATTGGTGGAGATCGAAGAGCAGATGCTTCACCTGATGGAAGTTCCTGATTCCATCCGGTTTCTTGAGAAGCGGCTTGAGGAAGTTTCTAAGAGAGCCGATGCTGTTGATGCGGTGTTCGGTCGCCTGGACGGATTACCCATACAAGATTTGTTGGCTAGAGTTGACACGTTAGAGTCACAAATCAGGAGAACTGGAAATGTCACCTACGAGCGTGGGGACAGTTCGTCGGGCGCTGCTGCCCATATGGAAGAACGAGTTATTGAGCTAGATAACTCTCAGAAGGACATAATGGAAATGATAAACGGCATGACAGAGGATTTTCGAGTCACCCTGGATGTCGTTAGAAATGAAATCGCAGAGGTGAACACGAAGGTGAACCTTACAATGCAAGCGTTGGAAAATCAAGCTCCAGCTGGAGAAGCAACTACAGTTGGCAAGATAAAGATCCCAGAACCCAAGCCCTTATGTGGGGCAAGGGATGCAAAGGCACTGGAAAACTTTATCTTCGACATTGAGCAGTATTTCAAAGCCACGAACACTAATACGGAAGAAGCCAAAGTGACATTGGCGACCATGCGTCTATCTGAAGATGCAAAGTTGTGGTGGAGATCTCGATATGTGGACATTCAGGAAGGGCGTTGCACCATAGATACTTGGGACAGTTTGAAGAGAGAACTCCGCTAGCAGTTTTTCCCCGAGAATGTCGAGATTCTGGCTCGACGAAAACTGAGAGAATTAAAACACACTGGAACCATTCGGGAGTATGTGAAGCAATTCGCGGGGCTGATGCTGGATATATCAGATATGATCGAGAAGGACAAAATCTTCAGTTTTGTCGAAGGGCTGAAACCGTGGGCAAGGACTAAGCTGTATGAGCAGAAAGTTCAAGACCTCACGTCAGTCTATGCAATAGCTGAACGTTTGTTTGATCTGTCTGGTGATTCTCAGGACGCGAGACGTCATCAAAGCTCTTCACCTGGAAGAGACAGAAGCAGCCGACCGAATTCTCCTAAGGTTGCCAGTGAAAACAGAAGTCCTGGTAGAGACCGCAAGCCTTCCCAATCCAACACGGGAGACACCGGGAAAAGACGTGATAGTCCAAACACGTTGAATCGTTCTATCAGTTGCTACATATGTAACGGGCCACATCGGGCAAGGGAATGTCCAGATAAAGCGGCCTTCTACGCCTTTCAGGCCTCTTTGGCTGCGGACTCAGATGACAAGTTGAGTCAACCAGAGAAGGAGGATGGACAAATGGAGGAAGTTCAAAATGTCCGAGTGGGGGCCATAAGACTCTTGTCGTCCTTCCAGAAGAAAGCGGGGGAGACAAGGGGAAGCACGAAAGGGGGCCTAATATATGTTGACACCTGGATCAACCGAAAGCATGCAAGGAGCACTATGGTCGACTCTGGTGCAACTCATAATTTCATAACGGTGGCCGAAGTCAGACGATTAAACCTTCATTGGAAGAAGGATACGGGAAAAATGAAGGTCGTGAACTCTACAGCTCTACCCGTCGTTGGAGTAGTGAAACGAGCGGTGATACAGTTGGGAGGATGGAGCGATTTCGTTGATTTCGTAGTTGTAGGCATGGATGACTTTGATATAGTCCTTGGAATGGAATTCCTTCTTGGACATCAAGTGATCATGATGCCTGCAGCTAGATGTCTGGTAATCACGGGGTCTACCCCCACCGTTGTGCAGACAGACCTTCGGCAACCCAAAGGACTGAGAATGATCTCGGCCATGCAACTGAGGGAGGGCCGTGTTCAGGAGGACACAAGGTGTGTCGTGGAGAAATGTTGTGATGGGGAACGTGATAGTTTGCCCATGTCAGAATTGCCTACGAACAATAATTGTCGTATGGCGCAGTCAGAGTCAACTGGACTCCGAAGACAGTCACAGAGATTGTCGAGTGCAGGATTCACTAGACCTGCAAAAGCTCCGTATGAAGATCAAGCCATCTTACGGAAGGAAGAGAATGGACGGTTGTGTGTCGACAACCGTGTCCTAAAGCAAGCCCCGAGGAGAGGGCCAACTTTTGGGTCCGTGAGTGGGACTCAACCTGTTGAAGCTTATGTTAAGGCATCTAATCATGCTTCGGGTGGCGCCCTAGTGCGGAATGGACACCCGATCGCATTTGAGAGTCAGAAGCAGAGTACGACAGAAGGTACCTGTATGGTGTCTGTAGAAGAAACGCTTGCCATAGCACACAGTCTGAGGCATGGGAGACAGTGTTCCCATAAATCAACTTTT

mRNA sequence

ATTAGTTGTTTTGGAGGTTGCCTTTAGAAGTTGGGGAAGCGAAGCTGCGAGCAGTTGTGCTTCGTAGAGGATGCACGCTCCATCCGGAGAATGCCTTGTGTATTTGTTTGTTTTGGTGGGGAATGGAAAGAGGCTGAGAAAGAATACGTCAGAGTAATCAAGAAGATTTTCAAAAAAAAATTTAACTGAAGATGATGTGTCTCAAGTAGAAGTTTTGGTTTCGAAAGAGGCAAAATGGAAAAGGAGAAGGCAAATGCAGGGGCGAAGAATGCAACACCATTTCAAGGAGGGATTTCATTCCATAAATCCAAAGGCGAGCATATTCTCAAGAATCCCTTGCTTGTTGACTACATTTCAAATGTCTGGAACTAAGAGCATCGATGTGATACTCGAGACCGGTACTGGTAATCTCACTAAAAAGCTTTTAGAATGTGGGAAGATGGTTATTGCTGTCCAAATCGATCTTCAGATGGTAGATTCATTAATTGAAATGAAATCGCAGAGGTGAACACGAAGGTGAACCTTACAATGCAAGCGCACTGGAAAACTTTATCTTCGACATTGAGCAGAAGGGCCAGTTTTTCCCCGAGAATAAGGACAAAATCTTCAGTTTTGCATGGATGACTTTGATTTTT

Coding sequence (CDS)

ATTAGTTGTTTTGGAGGTTGCCTTTAGAAGTTGGGGAAGCGAAGCTGCGAGCAGTTGTGCTTCGTAGAGGATGCACGCTCCATCCGGAGAATGCCTTGTGTATTTGTTTGTTTTGGTGGGGAATGGAAAGAGGCTGAGAAAGAATACGTCAGAGTAATCAAGAAGATTTTCAAAAAAAAATTTAACTGAAGATGATGTGTCTCAAGTAGAAGTTTTGGTTTCGAAAGAGGCAAAATGGAAAAGGAGAAGGCAAATGCAGGGGCGAAGAATGCAACACCATTTCAAGGAGGGATTTCATTCCATAAATCCAAAGGCGAGCATATTCTCAAGAATCCCTTGCTTGTTGACTACATTTCAAATGTCTGGAACTAAGAGCATCGATGTGATACTCGAGACCGGTACTGGTAATCTCACTAAAAAGCTTTTAGAATGTGGGAAGATGGTTATTGCTGTCCAAATCGATCTTCAGATGGTAGATTCATTAATTGAAATGAAATCGCAGAGGTGAACACGAAGGTGAACCTTACAATGCAAGCGCACTGGAAAACTTTATCTTCGACATTGAGCAGAAGGGCCAGTTTTTCCCCGAGAATAAGGACAAAATCTTCAGTTTTGCATGGATGACTTTGATTTTT

Protein sequence

ISCFGGCL*KLGKRSCEQLCFVEDARSIRRMPCVFVCFGGEWKEAEKEYVRVIKKIFKKKFN*R*CVSSRSFGFERGKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYISNVWN*EHRCDTRDRYW*SH*KAFRMWEDGYCCPNRSSDGRFIN*NEIAEVNTKVNLTMQAHWKTLSSTLSRRASFSPRIRTKSSVLHG*L*FX
Homology
[Close]
BLAST of Chy7G135140 vs. ExPASy Swiss-Prot
Match: O22268 (Ribosomal RNA small subunit methyltransferase OS=Arabidopsis thaliana OX=3702 GN=DIM1A PE=1 SV=1)

HSP 1 Score: 56.6 bits (135), Expect = 3.9e-07
Identity = 28/43 (65.12%), Postives = 33/43 (76.74%), Query Frame = 0 

Query: 77  GKMEKEKANAGAK-NATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+ KEK  A  +  +  +QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIRKEKPKASNRAPSNHYQGGISFHKSKGQHILKNPLLVDSI 46

[Close]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match: A0A0A0LY97 (rRNA adenine N(6)-methyltransferase OS=Cucumis sativus OX=3659 GN=Csa_1G679560 PE=3 SV=1)

HSP 1 Score: 71.2 bits (173), Expect = 5.7e-09
Identity = 33/42 (78.57%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+ KEK  A AK ATP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIRKEKPKAAAKAATPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match: A0A5A7T0N9 (rRNA adenine N(6)-methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1228G00080 PE=3 SV=1)

HSP 1 Score: 70.5 bits (171), Expect = 9.7e-09
Identity = 32/42 (76.19%), Postives = 37/42 (88.10%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+++EK  A AK ATP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIKREKPKAAAKAATPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match: A0A1S3B8X1 (rRNA adenine N(6)-methyltransferase OS=Cucumis melo OX=3656 GN=LOC103487290 PE=3 SV=1)

HSP 1 Score: 70.5 bits (171), Expect = 9.7e-09
Identity = 32/42 (76.19%), Postives = 37/42 (88.10%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+++EK  A AK ATP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIKREKPKAAAKAATPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match: A0A6A1WF20 (rRNA adenine N(6)-methyltransferase OS=Morella rubra OX=262757 GN=CJ030_MR2G012450 PE=3 SV=1)

HSP 1 Score: 67.4 bits (163), Expect = 8.2e-08
Identity = 30/42 (71.43%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK++K+KA AGA    P+QGG+SFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIKKDKAKAGAGAHAPYQGGVSFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match: A0A2P6PIA8 (rRNA adenine N(6)-methyltransferase OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr7g0241601 PE=3 SV=1)

HSP 1 Score: 66.2 bits (160), Expect = 1.8e-07
Identity = 32/42 (76.19%), Postives = 35/42 (83.33%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+ KEKA AG    TP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKVRKEKAKAGGAQ-TPYQGGISFHKSKGQHILKNPLLVDSI 44

[Close]
BLAST of Chy7G135140 vs. NCBI nr
Match: KAE8649634.1 (hypothetical protein Csa_012427 [Cucumis sativus])

HSP 1 Score: 90.5 bits (223), Expect = 6.47e-18
Identity = 53/119 (44.54%), Postives = 63/119 (52.94%), Query Frame = 0 

Query: 1   ISCFGGCL*KLGKRSCE----QLCFVEDARSIRRMPCVFVCFGGEWKEAEKEYVRVIKKI 60
           +SCFGGC  K  KRSCE    QL  VEDARSIRRM  VFVCFGGEWKE EKEY  VI KI
Sbjct: 1   MSCFGGCPLKSRKRSCENPTTQLNVVEDARSIRRMSRVFVCFGGEWKEIEKEYATVINKI 60

Query: 61  FKKKFN*R*CVSSRSFGFERGKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLV 115
           FK K             ++  K ++ +   G +    F+ G      K     + P L+
Sbjct: 61  FKTKLTGDDMFQVAVLVWKEAKWKRRRQMQGRRMQHHFKEGFHSINPKASIFSRIPCLL 119

[Close]
BLAST of Chy7G135140 vs. NCBI nr
Match: XP_004142540.1 (ribosomal RNA small subunit methyltransferase [Cucumis sativus] >XP_011660265.1 ribosomal RNA small subunit methyltransferase [Cucumis sativus] >KGN66758.1 hypothetical protein Csa_007400 [Cucumis sativus])

HSP 1 Score: 72.0 bits (175), Expect = 8.08e-11
Identity = 33/42 (78.57%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 118
           GK+ KEK  A AK ATP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIRKEKPKAAAKAATPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. NCBI nr
Match: XP_038877082.1 (ribosomal RNA small subunit methyltransferase [Benincasa hispida])

HSP 1 Score: 72.0 bits (175), Expect = 8.33e-11
Identity = 33/42 (78.57%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 118
           GKM+KEK  A AK A P+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKMKKEKPKAAAKAAAPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. NCBI nr
Match: XP_008443786.1 (PREDICTED: ribosomal RNA small subunit methyltransferase [Cucumis melo] >KAA0035147.1 ribosomal RNA small subunit methyltransferase [Cucumis melo var. makuwa] >TYK29222.1 ribosomal RNA small subunit methyltransferase [Cucumis melo var. makuwa])

HSP 1 Score: 71.2 bits (173), Expect = 1.51e-10
Identity = 32/42 (76.19%), Postives = 37/42 (88.10%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 118
           GK+++EK  A AK ATP+QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIKREKPKAAAKAATPYQGGISFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. NCBI nr
Match: KAB1223453.1 (putative dimethyladenosine transferase [Morella rubra])

HSP 1 Score: 68.2 bits (165), Expect = 1.83e-09
Identity = 30/42 (71.43%), Postives = 36/42 (85.71%), Query Frame = 0 

Query: 77  GKMEKEKANAGAKNATPFQGGISFHKSKGEHILKNPLLVDYI 118
           GK++K+KA AGA    P+QGG+SFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIKKDKAKAGAGAHAPYQGGVSFHKSKGQHILKNPLLVDSI 45

[Close]
BLAST of Chy7G135140 vs. TAIR 10
Match: AT2G47420.1 (Ribosomal RNA adenine dimethylase family protein )

HSP 1 Score: 56.6 bits (135), Expect = 2.8e-08
Identity = 28/43 (65.12%), Postives = 33/43 (76.74%), Query Frame = 0 

Query: 77  GKMEKEKANAGAK-NATPFQGGISFHKSKGEHILKNPLLVDYI 119
           GK+ KEK  A  +  +  +QGGISFHKSKG+HILKNPLLVD I
Sbjct: 4   GKIRKEKPKASNRAPSNHYQGGISFHKSKGQHILKNPLLVDSI 46

The following BLAST results are available for this feature:
BLAST of Chy7G135140 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
O222683.9e-0765.12Ribosomal RNA small subunit methyltransferase OS=Arabidopsis thaliana OX=3702 GN... [more]
BLAST of Chy7G135140 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0LY975.7e-0978.57rRNA adenine N(6)-methyltransferase OS=Cucumis sativus OX=3659 GN=Csa_1G679560 P... [more]
A0A5A7T0N99.7e-0976.19rRNA adenine N(6)-methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5... [more]
A0A1S3B8X19.7e-0976.19rRNA adenine N(6)-methyltransferase OS=Cucumis melo OX=3656 GN=LOC103487290 PE=3... [more]
A0A6A1WF208.2e-0871.43rRNA adenine N(6)-methyltransferase OS=Morella rubra OX=262757 GN=CJ030_MR2G0124... [more]
A0A2P6PIA81.8e-0776.19rRNA adenine N(6)-methyltransferase OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr7g... [more]
BLAST of Chy7G135140 vs. NCBI nr
Match NameE-valueIdentityDescription
KAE8649634.16.47e-1844.54hypothetical protein Csa_012427 [Cucumis sativus][more]
XP_004142540.18.08e-1178.57ribosomal RNA small subunit methyltransferase [Cucumis sativus] >XP_011660265.1 ... [more]
XP_038877082.18.33e-1178.57ribosomal RNA small subunit methyltransferase [Benincasa hispida][more]
XP_008443786.11.51e-1076.19PREDICTED: ribosomal RNA small subunit methyltransferase [Cucumis melo] >KAA0035... [more]
KAB1223453.11.83e-0971.43putative dimethyladenosine transferase [Morella rubra][more]
BLAST of Chy7G135140 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G47420.12.8e-0865.12Ribosomal RNA adenine dimethylase family protein [more]
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Chy7G135140.1Chy7G135140.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0051301 cell division
biological_process GO:0001708 cell fate specification
biological_process GO:0031167 rRNA methylation
cellular_component GO:0005759 mitochondrial matrix
cellular_component GO:0005730 nucleolus
molecular_function GO:0003723 RNA binding
molecular_function GO:0000179 rRNA (adenine-N6,N6-)-dimethyltransferase activity