Spo16692 (gene)

Overview
NameSpo16692
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionUnknown protein
Locationchr5 : 17890775 .. 17898426 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCGCTATGCTACTGAGAGTCCGAGAGTTCAATTTAACCATCATTGTAAGCACCACACAGTAATTGATATGGTGGTAACCCCACCAGTTGTGGCAGAGGCAGAGGTGGTGACTATACAAATCATGTTTTGCACAATTCTAACAACCGTGTCCACTTCTGTCTCTGATGAAAATAGGGGAGGAGTGAGTGGTGCGGATAACAAAGAAGGAGGTGGTACTGCGAAAGAGTCTCCAAAACCCCAAAAGAAGAACCTTAATTGCCTCCACCGTTTCTCTGGTTTTGCATCCCCTTCTACTTGCTTCTCTGGTTTCGCATACCTTGAAGATACTCAGATAGATTCTGGTGAGTTTCCTGCTATAGGGAGTGCCATTAAGCAACATGTTACAGCCACATATATAGTAGCAGTATAG

Coding sequence (CDS)

ATGCGCTATGCTACTGAGAGTCCGAGAGTTCAATTTAACCATCATTGTAAGCACCACACAGTAATTGATATGGTGGTAACCCCACCAGTTGTGGCAGAGGCAGAGGTGGTGACTATACAAATCATGTTTTGCACAATTCTAACAACCGTGTCCACTTCTGTCTCTGATGAAAATAGGGGAGGAGTGAGTGGTGCGGATAACAAAGAAGGAGGTGGTACTGCGAAAGAGTCTCCAAAACCCCAAAAGAAGAACCTTAATTGCCTCCACCGTTTCTCTGGTTTTGCATCCCCTTCTACTTGCTTCTCTGGTTTCGCATACCTTGAAGATACTCAGATAGATTCTGGTGAGTTTCCTGCTATAGGGAGTGCCATTAAGCAACATGTTACAGCCACATATATAGTAGCAGTATAG

Protein sequence

MRYATESPRVQFNHHCKHHTVIDMVVTPPVVAEAEVVTIQIMFCTILTTVSTSVSDENRGGVSGADNKEGGGTAKESPKPQKKNLNCLHRFSGFASPSTCFSGFAYLEDTQIDSGEFPAIGSAIKQHVTATYIVAV
Relationships

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

Feature NameUnique NameType
Spo16692.1Spo16692.1mRNA


Homology
The following BLAST results are available for this feature:
BLAST of Spo16692.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo16692.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo16692.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo16692.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 0
Match NameE-valueIdentityDescription
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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:0009853 photorespiration
biological_process GO:0006508 proteolysis
biological_process GO:0006744 ubiquinone biosynthetic process
biological_process GO:0006814 sodium ion transport
biological_process GO:1902600 proton transmembrane transport
biological_process GO:0006120 mitochondrial electron transport, NADH to ubiquinone
biological_process GO:0009225 nucleotide-sugar metabolic process
biological_process GO:0006012 galactose metabolic process
biological_process GO:0009627 systemic acquired resistance
biological_process GO:0080129 proteasome core complex assembly
biological_process GO:0009737 response to abscisic acid
biological_process GO:0009414 response to water deprivation
biological_process GO:0042967 obsolete acyl-carrier-protein biosynthetic process
biological_process GO:0006635 fatty acid beta-oxidation
biological_process GO:0016558 protein import into peroxisome matrix
biological_process GO:0051788 response to misfolded protein
biological_process GO:0006511 ubiquitin-dependent protein catabolic process
biological_process GO:0016573 histone acetylation
cellular_component GO:0005778 peroxisomal membrane
cellular_component GO:0000123 histone acetyltransferase complex
cellular_component GO:0080008 Cul4-RING E3 ubiquitin ligase complex
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0005576 extracellular region
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005747 mitochondrial respiratory chain complex I
molecular_function GO:0004402 histone acetyltransferase activity
molecular_function GO:0003978 UDP-glucose 4-epimerase activity
molecular_function GO:0050662 coenzyme binding
molecular_function GO:0005515 protein binding
molecular_function GO:0003677 DNA binding
molecular_function GO:0004190 aspartic-type endopeptidase activity
molecular_function GO:0008137 NADH dehydrogenase (ubiquinone) activity
RNA-Seq Expression