Spo20163 (gene)

Overview
NameSpo20163
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionUnknown protein
LocationSpoScf_01184 : 165554 .. 176815 (-)
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.
ATGATTATTGAGGAAAAGCAACGAAGATCGGCGTTGCTGAAGATTGAAATTGTGGTGGATGTAAGAGAAGCATGATAATTGAGAGATTGTTGCTGACATTTTCGCGACCTTGAATCGATGAATTTGGTCGAAAATTTTAGGATTGAATTGTGAAATTTGAGTTTTTGGTTTGTGGGAATAGAAATGAGTTTGACCAATGCAATGAAACGGTATTAAATAATTGCTCAACTACTGTTAGGACGTAAAATTTGGATTGTTGCGTCAAGCATTGCGGAATCCAATCCGCATAGCTTGTGCAACCTGTGTTTTAGAGTCAAAATGGGAGATTCTATGTTTAGTGGGTGGTTTCCGAATAAAGTCGTTGTTTAGTTGAAAACGGAAAGTAGGATTATTTTACGGTGAATTTGTTAAAAATGATATTTTATACGGATATTTCATGAAATGCCCCCGAGTTTTGCCATAATTCACCAAACGCCCATCAAGTTTCAATAATTCATAAAATACCCCTCACAATTCGTACAAATACCCAACATACCCTTACTAATAACGGACCGTTAGTCTGCCGTTAGCCAAGTTTCCAATTCACCCAAATGCCCCTATTCTGAAACTTATTTCACCAAATGCCCCTATTGTGAAACTTATTTCACCAAATGCCCCAAACTTAAATATAACTATTTTGATGTTTCAGCGACTAGTTTTTGTGTTTGAAAGGTAGATGTTGGTCACGGTTGACTATAAAAGCCCCTTTGCTGAATGGTTCTTGTAAGTTAGATGTTATTTTGATTTGCTTTGCTAATTTCATAAGATTTTTGTCATGAGTTTTCTTTCAAAATCATCATCCACACCCAATGATCGAGTCCACATATATTAGAGTACCTACCAAATTTTGTTATTGTGGTAGGAAATTTGTCATTCGAAGCTCTGATACAACACTCAATCCACAAAGGTTGTACTACAAGTGTGATCCTTGAAACAATCTGAGATGGTGCAAGGGAGTAGTTGAGCAAGAAAACAAGGGGCAACAACACGAAGGAAAATGCGGGGTAAGCTTAGACGAAGGAGAAAGTATTGAAAACAGGCGAAACAGTAAGATGCAAGAAGAATTGAAGTAAATGAAGAAGAAGCTAAAACAACAACAAAAAGTAGTCAAAGTTGTAATACAAATGGGGATATTGATGTTTGTAATTTTACTGTTTGTAATCATGAAGTAAACACAAGTAATGAGAAACAAATTCACATTTCATAAATAATTGATGTTGCATAATCTGCACAAAATACCAAACTGTGAAGCATTTCTGTTTTTAGCTTCACTTACAAAACATCGTTGCACCAACTACATTTAATGTTATTTTCTACTCAATGAATATGTGCAAGATCAAAACAAATGTTCAAAAAACTACCCCAAAAAGCATTAGCAGCTATCCAAAAGAGCTTGTGGAACACCACTTCAACCTCCATTCCTACCACAATAACAAATTTTGTTAGGTACCCTAATATATGTGGACTCATTGGGTGTGGAAGATGATTTTAAAAGAAAACTCATGACACAAATCTTATGAAATTAGCAAAGTAAAGTAAAATAACATCTAAAATACAAGAACCATTCAGCAAAGGGGTTTTATAGCCAACCATGACCAAGAACCAGTTTTCAAACACAAAAACTAGCCGTCGGAACATCAGAATAGCTATATTTAAATTTGGGGCATTTGGTGAAATAAGTTTCATAATAGGGGCATTTGGTGAAATAAGTTTCAGAATAGGGGCATTTGGGTGAATTGGAAACTTGGCTAACGGCGGACTAACGGCCCGTTATTAGAAAGGGTATGTTGAGTATTTGTACGAATTGTGAGGGGTATTTTAGGAATTATTGAAACTTGATGGGCGTTTGGTGAATTATGGCAAAACTCGAGGGCATTTCATGAAATTTCCGTATTTTATAATCTAAACTAGTATAATACCCATGCGATGCACGGTTTAGATTAATTTCGAATGCAAATTAAATTATAGTTATTGACAACTGTCATCAATAGTGTTTATAGATGCTCTTCTAACTAAAATTATTATTGGATAGATATGTTATGGCTCCGTCCAATCTCTTATTTTATTTAAGAAAAAAAAAACACAAACGGTACGTATATAAAATTATTTTCACCATGTTCATCACCCGTGTCAAAAATTAAAGTCATTTACATCCATCATTTACTTAGATAATCATATCCACCTAATACTCAACAAACCATGTATCTTTATACACGATCACTTAACACCCACCTATACAATCTAGTTTATTTAGCTACATATGACTTCAACGCGGGGCGAGTGCGGAGGATTGGTCACTCCATAACTGTACTTGCTTATCTTGTTCCTATCCTTTCCACCCACGATAAATATGATATTCATCCTCATCGCAAACACAATCTCGATCCCACCCTCGCGGGGCACAAAATAAAACTCATCCCGCTCCTTCACCCACCCTAAAATCTACACCTGCCTCAAGCTCACCCTTGGTCCGACAATTTTTTTTTGGTATGAATGTTTTGAATTTTAAAACATTGTTCTAGAGTGTTTGGCAACTTAGTTATCTGATTAGGTGATTGAGTAAATGTGCAAAATTATAATATGTAGGTTAGTATTAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTAGAATATTAACTTGTCTATTTTTTCTATTTTCTATTTTTACTTAGTATTTTTAGGATGTTTATTATCAACAGAATCTTTAAGATTTATATTGGAAAACAATAATATTTTCTTTAGTTCATATTTTTCCTTAAATAAGATAACTTAAAATAACCAACTTCTCTTTGAACCTTGTTCGGTTGTTCCTCGTGTTTTTTAATCTATTTAGATACGACAAACTATTTGCACAATAGCTTAGATAGTTCAAATTTACTTGAACGTAAATATTTAGTATGCAATACTTTTTGTTGTTTGATTCTATTAAACAAATTCTATTAAAAAGAAATAGTGTCTTAGTTGTTTGATTATATCAAACAGGCGTTATGCCGCTATTAATAAAAATAACAAACTTTTCTTTCAACCTTGTTCGGTTGTTACTCGTGTTGTTTAATGTTGAACAATGAAGCTCTTTTATGGATTATTGACATTGTTGGTATTGAATTACTTTTTTTGTTTTTTATGTTATAGATCGGTTTGCATTGGTTTGGGTGGTGGACTGGTGGTCTTACATTGGGAAGAGTTTGGGAATTGTTTCTTTAAATTGTAGAGAAAAATTTCATAAACCGTACTTTGAAAACATACTTCGTAATATGATATTGAACTATAAGCTAAAACATATTTCGAAATATGATAATGAACTGAAATATATATTCCGTATAATTGATTTGTTTGCCGGAAAATATTTTTAGAATGTATATTATAAACAGAATCTTTAGGATTTGTAATCAAAATAAATAATACACTTCCTTAAATAAAATATTCTAATTCCCTCAAAAAAAAATTATTTTTTTTAATTAAAAAGAGAGGCGAATCAATGAGTGACACTTGTCATCACCACATTGATTTCCTCTCTTTTAGTATATTATATAGATTTTGTGAGAATTTTTTTTTTGGTGTTAGCACCTAGTTCATCCTTAGGGCTAATCTGGATTCGGGGCGAATTTTGGGTCGATAGGTTTCAGTCCCCACCCAATTGTTGTTGCGGGGGATCGAACACGAGTTCTCCCTACCAAGTTCAGCCCCAGTCACAACTGAACCAACAAAATGATATTATATAATTATTATTTTTGTGAAATCACAGCTTAATGTAAATCTTTTTTGCGAAAGGCATCCTAAGGGAAGTTTCCGACATTGACTTGCACGCGAGCAGCACGTGTAGCTTCATTTTGCTGCATTTTCAACAAAACGCATTGTTAAAGTGATGCTTATTGTGGTAGTGCTCGATTTTGATATATTGTGTCGTGTTTAAGGAAAGCTGTTTCGTTTCCTCTAAACATGCTCGTTTTCACAAATATGTAAAATGAAGTCACACGTGCTGCTCACGTGCAACTGTGCAAGTCAATGGCCGGAAAATCTTAGTCAATGCCGAAAACTTTCCTTTGGCTGTCTTTCGCAAAAACTATTACATTAAGGTGTTATTTTACAAAATAAGTTATTTAAGGTTATTTCTCGCAAAATTTGGGCAATAAAAGGTCATTTTTTGCAAATTTGCCTTATTTTATTAAAAACTATTCCATAGTATATGCCCGTGTTGATGCACGGGATGTATAAGATTAAAGAACTATGTATTTTCTTTAAAAAAAATTAAAACTAATCATAAAGATAAATTGGATTATCTTGGTGTAAAATAAAAGAAATACAGTAGTAAGATAACGAACGAAAGTTGCATGATTATGAGTATTACGGAGTAATTAGGAGTACACCAAAGTGTAGAATTTCATACAAATCAATACCTACAAAATAAGAAAGTAGATTGAAACTCAAAACCAAGTGTTGCTATTTTCTAAAGATTTATAAACAAAATGATTATGATTGTCCACGACTGCAAGTATGCAACTCCTCTACTCCCTAGTGAATAGCCTAATGAGGAATTCATCATTATCACGGATTAGTTTTAACTAACACACATATGTATCAGTAATTCAGTAGTCTTTGACAAATTCCCTATAACTGAGGAAATAGACCAAGAAATTTTAACAATAGCACACGCGTTAATATAAATTTATTTTGCTAATTATAGAAAGATTAGTATGATTTTCTTTTGTTAATCGTAAAAAGATTAATTGTTATAACAAAAGTAATTTTTTTTTTAAATAACGTAAATAAAGAACACGGAGATTTAACATGGTTTAATAACAATGTATTAGCTACGTACACATACAGAGGAGAGAGAATTTTCATTGATTTGAGGAGTACAAATTATAGAATACAACTAGGTTATGACCTAAAGAGTTTATATAGTATTCTCTAAACAAATGTGGAAAAACCTAGAAAATAGACACAAACAGATAACTCTAGTGTAGAATAACAGATACCGTAAACCTCCATTAGGGACCATGTTGCGTCCCCGAACCCCTAAACCAGAATGCGTCACCCCTGGACCCCTTCTCGTTGAGAGGGCAGCGAGATCCCCGTGTTGGGGTGTTGCAGTAAGGGGCTTGATCGATTCAAGACATTGTTATAACAAATCTCCACCTTGACTTGAATCCTCTCACAAATAATAGATTTATCAGATGCACCATAATAATGCCAGATGTACCATAAACTCCCCTGCCTCGGATTTTGGCCTCAAAAGGGCAATCAACAACTCCTAACATTTAGTAAGTCCAAACAATATTGAAACTTGTTATGCGGCATCGGCTTGGTGAATATATCAGTTGAGTTATCAGCAGTACCCACTTTGTTCACTTTAATTCTCTCCTCACTCCTTAGAAAATGATACCTTACATCTATGTGCTTAGTCCTCTCGTGATGGACTTGATCCTTAGCTAAACAAATTGCACTGAGACTGTCACAATACAGTATGGCCTGATCATGATGTAAACCCAAATCACTGACCAATCCTTTCAACCAAATTACCTCCTTTGTTGCTTCTATCAATATATGTCATGTACTTTGTTTCTGTAGTAGACACAGTCAATGTGTGTTAAAAAGTAGCTTTCCAACTGACAACTGAACCACCAAGAGTGAAAGCATAATTAGTCATAGATCTTCTATTGTCAATGTCTCTAGCTAGTATAACTAGAGTCTGAAAACCCTGTCACCAAACACTTTGTATCACCTCCATAAATGAGATCAGCATCAGATGTACCCTTTAGGTACTAAAATATCAGGTACTTCTCAATGTACTCAACACAAACCTTAAGTGTTCAGCATGATCTTCTTCACTCTTTGAATACACAAAGATATCATCTATGAAAACCACTATAAACATGTTCAAGAATGCATGGAATACTCGGTTCATTAGGTCCATAAAGATAGCAGGTGCATTGGTTAACCCAAAAGGCATAACAGTGAACTCATAATGATCGTATCTAGTCCTAAATGCAGTCTTTGATATATCGTGATCCGCGATTCTCAATTGATGATAACCCGATCTCAAATTGATCATGGAAAAGATTTCCGCTCCTTTCAACTGGTCAAACAGATCATCTATCCTAGGCAAATGACACTTATTCTTGATTGTGACCTTATCGAGCTCCCTGTAGTCTATACAGAGTCTCATACTTCCGTCCTTCTTCTTCACAAACAAGACTGGCGCTCCCTAAGGCGATGCACTTGGTCTGATATAACCTTTCTCTAACAAATCTTCTACTGACCTTTCAACTCACTCATTTCTGCTGGAGCCATGCGGTATGGAACTTTCGAAATAGGTGCGGTTCCAGGTACTAAGTCTATGGTAAATTCAATAGGTCGATTAGGCGACATTCCCTGTATCGCTTCCGGAAACACGTCCAGAAATTCATTCACTACCGCAATATCCTCAGGTTGATCCTTAATAATATGCTCGAGGTTTCTCACATTGCACAAGAAAATGGGGCTTCCTTTACTGACTAGCTTCACGAGTTCCATTGTCGTGATGATCCCTACACTTCTAGGCTTTCCAAAACGACGATAGGACACTACTTTTCCTAAGCTAGACCTCAAATGAATCTTCTACTTCTCACAATCGATCTTGGCTTTGAATATTGCCAACCAGTCCATACCTAAAATCACGTATAGTTCTCCCAATTCAAACTCAATTAGGCTAGAGAAGAATATGGTTTTGGCTATGGTCAAAGGCACATCTCTATGGATCTTGGTACACTTTACTATCCTACCAGTTGGTATAACTATGGGTACTTCAATCGCTTCAGGTTCTTTGAAGCCTAGTTTCTCCAAAATACCCACTAATATAAACGAATAAGTTGCACCAGAATCAAATAGTACTTTAACTAAAATGGAGTTAATAGAAAAAGTACCGGCTATGACGTCGGACAAAGTTTCTGCTTCTTACTAGTGATTACATTCAGCTTTCCTTGGGCAACTCCTTTGTTATAGCCACCTCCATTGGCATTTCCATTGGTGTTTCGGTTCCCATTTTGCTGATAGTTTCCCCCAGACTTTCCATTATTCTGGCCATTGTTGTTGTTGTTACCGCCTTGGTAACCTCTCTGGTTTCCACGTATTATTACTTCCATTATTCCCTCCATTTCGGTTTTGGTTATTCCGGTTGTTGTTCTGGCGGTTGTTCTGGTTAGGCCTTCCATTCTTAGCCCAACATTCAAATTCTCTATGGCCTGGCTTCTCACAGAACCTACAGATTACTGGATTACCATCACAATCATTTCCAGGGTGATTTCTATGGCAACGTCTGCACTCATAAACCCTTCACTACTACAAAAACTAGCTAAGAAACCATTAATAAGAAAACATGTAAGACACTTTATAGGTTTCTTATATATAGAAACCATACAATTTTGAAATATGGTTTCTTAGAAAATTAAAAAGATAACAAACAATAAAGAAATGTGGTTTCTTAGATAAATATAGTATTTTTTGAATAATTGAGTAAGGCATGGAGAACAAAGAAACCACATCTAAATAAAAGGTGGTATCCCTTTTATTATCTAACTTTTGTGACTTTTTTTGTTGAAAAGAAAAAAAGAAAAAAAAAACTGTTGTGAATTTTTATAACTGGACTTCGTATAAAGGCAAATTTGCCAAAAAGGACCTTTTATAACTCAAATTTTGCGAGAAAGGACCTTATATAATTTTTTTTGTGAAAACACACCTTAAAGTAATTTTTTTTGCGAGAAAGGACCTAAGGAATGTTTCCGGCATTGACTGAGCTTTTCCGGCCATTAACTTGCACGTGAGCAGCACGTGTGGCTTACGTTGGCTAAAGACAATGATTTTCCTGACTCTTGAATTTTCAAACTTGATTTTATTTCGGTTTTTCTTTTCAACTTTAGGTTTTAAAGCTTAGAATTTTGGAGGAAAATTGGGTGTGATTAGCAAAATAATGCCATACGTGCTTCTCACGTGCAAGTCAATGGCCGGAAAAAACTCAGTCAATGCCGGAAATTTACTCTTGGTTGTCTTTCGCAAAAAAAATTACATTAATGTGTGATTTCACAAAAAAAAATTTATATAAGGTCCTTTCTCGCAAAAAAATTTACATTAAGGTGTTATTTCACAAAAAAAAATATATAAGGTCCTTTCTCGCAAAATTTGGATTATAAAAGGTCCTTTTTAACAAATTTGCCTCGTATAAATGACAAAATACAAATAAAAAGAACATAAAATTTAAAAATAACAAAAAACGAAAAATTGTTTATTTTAAAACCTAGGGTTTCTGCGCTATTCTTCATCTTTCTCTCACTCTCTCCTCCTCGGGTCCTGGCGGCCGAAGCTCTGTTTCTTCTTGCAAATCTTATCTTGCAACCACTCAACAATGGCAGGACAGGTACTCCTTCAACCTTAAATTATTTCTTCCATTTTTATACTTATTTATTTTCGATCTCAATTCATCCTTAAGTTTTCATTACTTTTCTTTTGGCGGTACAAGGTGAGGTCGATCATCAGCCATAGCGGAAGCCGCACAAAAGCTAGAGCAAGCTATGGGGAATGTTAGAGAAGATGGTCTTTCTCAGGTTCATTATATCTTTCAGATCTGTCTAATTGACTTGAATCTATGCTTTCTGAGTTTAAACCATCAAGTAGTTAGTAGTTAGTAGTTAGTAGTTAGTAGTTAGTAGTTCTTGATTTGGATTGAGAGAATTATTTTTTCATCAAGTAGTTAGTATTTCTTGATTTGGATTGATGTAGCAAAAATAAAATAAAGATAATTTATCTCCCGCGACCTGCAACAAGAGAGAGAAAACCATACACAACTTGCAATTTCCCAAGCTTTTCAGGTAATTTTCAGCTTTCTTCCCCTTTCGCCGATTAGATTACCCAGAACCCTAATTTATTGGCGTAATTAATTTTCCTTTTTCTATCACATTTTTTTGTGGTAATTCAATAAGGGTATTAGCTTTAATTGAGGAATTCTCCTTAATTGATCTTGTTAGTATTAATTCAAAAAGGTAATAGCTTTATCTTTTTTGAGGTGATTTTTGTTTTTATTGTTTGTTTTCCCGCTAGAATTATCTGATTCAGGGTTGATTTTTGTGGGGCTTTTTTCTATTTGGGGGAGGAGGGGGTGTTTGGTTGTTGGTCAACTTTGAGGAGTGAGAAATATTGGTGATGGAAGTTCTGTTAGTATTCTGAAAGATCTTATTGATTTGTATCTGAGTTATCAATTTGTTGATAATTCTGTTTTAAGATGTAACTGGTGGTTTTGATCTCCTTTTTTATGCAATACTTTTTGAAAAATTTGAAGCTTTGAGGTGTAAAAATTGATGTAGGGTTAAAGAAATAGCAACGATACCATGATTTCTAGCTGAATTCAGCTTAAAACATTTTATATATGGAGAAATTGTTGATGTCCCCATGTGGGATTGTTATTGTTCTGAAAGCTTAATTGGTGTTTGTAGCTGGATGTTTTCTTGCTCTAGAGGTGGGGAATGAACATGCTTTCTGACGTTTAGGCTTATTTTGTTGGCTCCTTTATTATGAATTCCTACATTTGTTATATCTGATGGATTTGCTGGTTTATCTTTGTTTTAACTTCATACAGGTCGGAGGGAGATTACAGACACAAGGGGCAATGTTATGGTGCAAGCACCTACCCAAATGTCACATCCTCTAGAGGAGAGAGAAAACCTAAGACACATGATGAGAAAATAGTTTATGTTTAGTAGAGAATTAGTGAAATTTAGTGGCTCATTTAAGAACATATTGAGTATTATTCAAATTCAGATAGTCGTATACTTCTGTATTTTTGAGATGAATATATAATTTGTAATTGTATTAATTTGTACTCGCTAGTTTTGTAGATTGAAAACTTTAGATTAAATAAAGTTTTTTTGGAATTTATTTTTACTATACGCTTTGGCATTTTGTTAGAATTAGTTTTCTACGACATTTTAAGCATAGATCATGGGCA

mRNA sequence

ATGATTATTGAGGAAAAGCAACGAAGATCGGCGTTGCTGAAGATTGAAATTGTGGTGGATATCGGTTTGCATTGGTTTGGGTGGTGGACTGGTGGTCTTACATTGGGAAGAGGTTTCTGCGCTATTCTTCATCTTTCTCTCACTCTCTCCTCCTCGGGTCCTGGCGGCCGAAGCTCTGTTTCTTCTTGCAAATCTTATCTTGCAACCACTCAACAATGGCAGGACAGGTCGGAGGGAGATTACAGACACAAGGGGCAATGTTATGGTGCAAGCACCTACCCAAATGTCACATCCTCTAGAGGAGAGAGAAAACCTAAGACACATGATGAGAAAATAGTTTATGTTTAGTAGAGAATTAGTGAAATTTAGTGGCTCATTTAAGAACATATTGAGTATTATTCAAATTCAGATAGTCGTATACTTCTGTATTTTTGAGATGAATATATAATTTGTAATTGTATTAATTTGTACTCGCTAGTTTTGTAGATTGAAAACTTTAGATTAAATAAAGTTTTTTTGGAATTTATTTTTACTATACGCTTTGGCATTTTGTTAGAATTAGTTTTCTACGACATTTTAAGCATAGATCATGGGCA

Coding sequence (CDS)

ATGATTATTGAGGAAAAGCAACGAAGATCGGCGTTGCTGAAGATTGAAATTGTGGTGGATATCGGTTTGCATTGGTTTGGGTGGTGGACTGGTGGTCTTACATTGGGAAGAGGTTTCTGCGCTATTCTTCATCTTTCTCTCACTCTCTCCTCCTCGGGTCCTGGCGGCCGAAGCTCTGTTTCTTCTTGCAAATCTTATCTTGCAACCACTCAACAATGGCAGGACAGGTCGGAGGGAGATTACAGACACAAGGGGCAATGTTATGGTGCAAGCACCTACCCAAATGTCACATCCTCTAGAGGAGAGAGAAAACCTAAGACACATGATGAGAAAATAGTTTATGTTTAG

Protein sequence

MIIEEKQRRSALLKIEIVVDIGLHWFGWWTGGLTLGRGFCAILHLSLTLSSSGPGGRSSVSSCKSYLATTQQWQDRSEGDYRHKGQCYGASTYPNVTSSRGERKPKTHDEKIVYV
Relationships

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

Feature NameUnique NameType
Spo20163.1Spo20163.1mRNA


Homology
The following BLAST results are available for this feature:
BLAST of Spo20163.1 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 Spo20163.1 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 Spo20163.1 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 Spo20163.1 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:0042254 ribosome biogenesis
biological_process GO:0030243 cellulose metabolic process
biological_process GO:0016126 sterol biosynthetic process
biological_process GO:0010431 seed maturation
biological_process GO:0006144 purine nucleobase metabolic process
biological_process GO:0009832 plant-type cell wall biogenesis
biological_process GO:0016310 phosphorylation
biological_process GO:0006412 translation
biological_process GO:0006094 gluconeogenesis
biological_process GO:0006096 glycolytic process
biological_process GO:0016049 cell growth
biological_process GO:0015976 carbon utilization
biological_process GO:0006508 proteolysis
cellular_component GO:0005759 mitochondrial matrix
cellular_component GO:0005840 ribosome
cellular_component GO:0009570 chloroplast stroma
molecular_function GO:0004252 serine-type endopeptidase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0019843 rRNA binding
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0005524 ATP binding
molecular_function GO:0000287 magnesium ion binding
molecular_function GO:0030955 potassium ion binding
molecular_function GO:0004743 pyruvate kinase activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0000166 nucleotide binding
RNA-Seq Expression