Spo10385 (gene)

Overview
NameSpo10385
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionKinase family protein
Locationchr4 : 4380485 .. 4391541 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTTCTCTCCCTCTCCCTTTCAGCCTTTCTCATTGAAACAACCACCTACCACTCAAATAATCCGGCTTCCAAACAACATCTCAAAATGGAATCCCATAAAACTAATTACTCTTTCTCCTCTCGTGGTGACCCTTAACCACCACCACCACCACCAACAACAACAACAACAACAACAACACACAATTAACATAATTGCCTCAATCACCACCACAACTAACATCGTATCACAAGACGTTACTATTGTACCCCGAGTTCTCGTTATTGGTGCGTCGTCCCACGGTCTTAGCCTCTGCATCGCCGTCCACAATCTCCGACTGGATCTTACAGCCATACATGAAATATTAGAAGATATTGGATACAAGGATGACGAGGGGATTGCAAATGAGGAATTATAAAAAAGCTTGCCAAAAGTTGTAAACCAAACTAGGACTTCACAATCGCCATGTGCTGCAAACCAAGTGCAAGTCCGCGTTCTTAACAACATAAGAAAAGACACTATAAAAACCAAGTGATAAATTACTGTTGTTGCATGGATAAAGTGTGAATTTTATGTTTGTAAGTTTGCTTTGTGTCACATCTTTTGTTCTGCAGTGCTCAACTATTTGATGC

Coding sequence (CDS)

ATGTTCTCTCCCTCTCCCTTTCAGCCTTTCTCATTGAAACAACCACCTACCACTCAAATAATCCGGCTTCCAAACAACATCTCAAAATGGAATCCCATAAAACTAATTACTCTTTCTCCTCTCGTGGTGACCCTTAACCACCACCACCACCACCAACAACAACAACAACAACAACAACACACAATTAACATAATTGCCTCAATCACCACCACAACTAACATCGTATCACAAGACGTTACTATTGTACCCCGAGTTCTCGTTATTGGTGCGTCGTCCCACGGTCTTAGCCTCTGCATCGCCGTCCACAATCTCCGACTGGATCTTACAGCCATACATGAAATATTAGAAGATATTGGATACAAGGATGACGAGGGGATTGCAAATGAGGAATTATAA

Protein sequence

MFSPSPFQPFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHHQQQQQQQQHTINIIASITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLRLDLTAIHEILEDIGYKDDEGIANEEL
Relationships

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

Feature NameUnique NameType
Spo10385.1Spo10385.1mRNA


Homology
[Close]
BLAST of Spo10385.1 vs. NCBI nr
Match: gi|902221323|gb|KNA18893.1| (hypothetical protein SOVF_066830, partial [Spinacia oleracea])

HSP 1 Score: 185.3 bits (469), Expect = 7.000e-44
Identity = 97/98 (98.98%), Postives = 97/98 (98.98%), Query Frame = 1 

		  

Query: 9   PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHH-QQQQQQQQHTINIIAS 68
           PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHH QQQQQQQQHTINIIAS
Sbjct: 1   PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHHQQQQQQQQQHTINIIAS 60

Query: 69  ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR 106
           ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR
Sbjct: 61  ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR 98
[Close]
BLAST of Spo10385.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RHB7_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_066830 PE=4 SV=1)

HSP 1 Score: 185.3 bits (469), Expect = 4.900e-44
Identity = 97/98 (98.98%), Postives = 97/98 (98.98%), Query Frame = 1 

		  

Query: 9   PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHH-QQQQQQQQHTINIIAS 68
           PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHH QQQQQQQQHTINIIAS
Sbjct: 1   PFSLKQPPTTQIIRLPNNISKWNPIKLITLSPLVVTLNHHHHHQQQQQQQQQHTINIIAS 60

Query: 69  ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR 106
           ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR
Sbjct: 61  ITTTTNIVSQDVTIVPRVLVIGASSHGLSLCIAVHNLR 98
[Close]
BLAST of Spo10385.1 vs. TAIR (Arabidopsis)
Match: AT5G59010.1 (Protein kinase protein with tetratricopeptide repeat domain)

HSP 1 Score: 47.8 bits (112), Expect = 6.100e-6
Identity = 21/25 (84.00%), Postives = 23/25 (92.00%), Query Frame = 1 

		  

Query: 105 RLDLTAIHEILEDIGYKDDEGIANE 130
           R DLTAIHEILE +GYKDDEG+ANE
Sbjct: 345 RHDLTAIHEILEKVGYKDDEGVANE 369
The following BLAST results are available for this feature:
BLAST of Spo10385.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 1
Match NameE-valueIdentityDescription
gi|902221323|gb|KNA18893.1|7.0e-4498.9hypothetical protein SOVF_0668... [more]
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BLAST of Spo10385.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 1
Match NameE-valueIdentityDescription
A0A0K9RHB7_SPIOL4.9e-4498.9Uncharacterized protein (Fragm... [more]
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BLAST of Spo10385.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
back to top
BLAST of Spo10385.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT5G59010.16.1e-684.0Protein kinase protein with te... [more]
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GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0048438 floral whorl development
biological_process GO:0048507 meristem development
biological_process GO:0045892 negative regulation of transcription, DNA-templated
biological_process GO:0007389 pattern specification process
biological_process GO:0009886 post-embryonic animal morphogenesis
biological_process GO:0035194 posttranscriptional gene silencing by RNA
biological_process GO:0050793 regulation of developmental process
biological_process GO:0050896 response to stimulus
biological_process GO:0010016 shoot system morphogenesis
molecular_function GO:0003677 DNA binding
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo102150.65Barchart | Table