Spo07853 (gene) | SpinachBase

Overview


Name	Spo07853
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	Unknown protein
Location	SpoScf_03163 : 10536 .. 19332 (-)

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.

ATGAAGGAAGGAGAGGGAGGAGAGTCGCGGCGACGGGGGAAGCGGGGAACACAGGCGACAATTCGCCTCCTCGCAACAACTACGACAGGTGGTTGATTAGTCGTTGTTGTTGGTCGATGTTGTTTATGTTGTGGTTGGATTCGTTTTTCTGAAACCAACCGTGTAGGAAATTTTGCAGAAGAGGTGACTGATTTTTGAGTCTTTCATGCAAGTGAATTGATAGAGAAAAACTAGTGGAAGATTTAGTTAGGTACATTTTAATTCCTGACTTCATGATTGTTGTTAGTGCTTAGCATATTAGAGTTCAATTCTGATAATTAATTATCAGATTTAGGGAGAACTTTATATTTGGAAAATTCGTTAATTGAATCAAAAGTATGATGATAAGCAAATATGATTTTATTCAAGGTAACTTTAGTTTGAACTATTGTATTATGATGATTGTCATCATCTATTATGAATCGAAAGTGATGAGAGGAAGAAGTATTTTTTTTGTTTACACAACAGAAGATCAGCTTAACAGCTTCATCTTTTGGATGAAAAAGAAAAATGTTGTAAAATATGTGAACGATTTAACTATTTAGCACTAAAAATTAACTATTTGTATAATTAAATGATTCAATGACAAACGTTTAAATAACGAAAACCCAAAAATTCTTAACTAAACCTCGAAAATAGCATAATTAAACACGTAACAAAAACATTCTGAAAACTTAACTAAAACTTGTTAAATATTAACTAAAACTTATAAAATATAATCTTAACTAAAACTTCTAAAATCTTTATTAAAACTTATAAAATCTTAACTAAAACTTTCAAAATCTTAATTGGAACTCAGAAATACGTAACTAAAACTCAAATATACATAACTAAAACTCAAAAAATTTAACTAAAAACTTAGAAAATCGTAACAAAAATTCAACAAAATTTAACTAAAACATGTAAAATCTTAACTAAAACTCAAAAAAACATACATAAATAAACCTCATAAAATCTTAACTTAAAAAAATAATTAATTGACTAATTGGTTCCATTATTTAACTAATTGGTTTTATAACAACTAAATGGTTTCACTGCTTAACTAATTGGAACGGAGGGAGTACATTTTTAATATTTGTAAACTTATTGGTTCTATTGCTTGACTAATTAGTTCCATTGTTTAACTAATTAGTTATATAATTTAACTAATTCGTTCCATTGTTTAACTAATTGAATTTTAGGCTTAAATAATTGAATTAATTGGTTCCATTGCTTTAACTATTTCGTTCCATTGCTTAACTAATTAGTTCCAATGTTTACCTAATTAGTTATAAAGTTTAACTTATTCGTTCCATTGTTTAACTAATTGAATTTTAGGTTTAACTAATTGAATTAATTGGTTCCATTGCTTAAACTATTTTGTTTCATTGCTTAACTAATTAGTTATATTGCTTAACAAATTGGTTTCATTGCTTAACTAATGGAATTGCTGGTTTAACTAATTAAATTATTTTCTTCCATTGCTTTAACTAACTGGTTTCATTACTTAACTAATTGGTCTAATTGCTTAACTAATTTGTTCAATTGCCTTAACTATTTAGTTTTGTTGCCTTAACTAAATGGTTTTATTTTTAACTAATTGGTTTCATTATTAACTAATTGCTTCAATTGCTTAACTAATTGAAGTTTAAGCTTAACAATTAATTGGTTACATTACTTAACTAGTTGATCTCATTTCTTAACTAGTGATCTCATTTCTTAACTAATTGAGTTTCAGGCTGAACAAATACTTTGTTTACATCTATAACCTTATTGTTTCCATTTATTAACTAATTAGTTCAAATGTTTTAACTAATTCGTTCCAATGCTTAACTGATTACTTCTAGTGCTTAACTAATTGAATATCAGTGCTTAACTAATTGGTTTCATATCTTAACTAATTGGTTCGATTGCTTAACTAATTGGTCCGGTTGCTTCAATAATTGAATTTCAGTGCTTAACTAATTGGTGTTCTAAATATATTGTATTATGGATGCCCATTATACACATGACATCCTTATCATATATTATATATGTATTTGTACATTATGTCTATTGGAATAAGATCATAACCAGCAGTTTCTCTCTTTCTCTCTCTCCCTTTCTCCCTAATTTCATAACACAATGTCAGCACCATTGCTAACCGTTGATGGAAATCAAAGGAACCCGCAAACAAATGAGAAAATAACTACAAACGTTATCGGTTATTCATCATTACGTATTACTATATGGTTTGGTATTTACTAGATTGCCTTTACTTTCATGATTTATTTTTAAAGAAGTTGTGTACGTGATCTTTCCCATGATATGATTATTATATACTCTTTATTTGATAAGACTAATTACTTTATTAAGTTGTTTCAATGATCTGCAATATATGCCGAACGTTAATTTTGTATGTCATCTAGATATTTTGTACCATATTTATGTTAATTTGTTTATACGTATTACCGTGTGTAAAATTGAGTTAAAATACTATCAATTATGTCTGATTGATGATGCTAGTATGTGAATGTTTATGTAAATTAAGATTTAATGTGGCAACATCATGCGGGGATATCGTTTTGATGCACTACATGCGGTCCATATCAATTTTAGTAAACTTTTTTTTTTTTTTGCTGTTCAACTGTACAATGTTTGATTTGATCTAAATATCTTTTGATTCTAAATTCGTTGAATTTATTTAATAAAAATACGGTTTTCATAAATAATTAATACTTAAATTAATTAAAAATAAAATACATTTAATTCCCATTAAATGCAATTAAATTCATAAAAATCCTTATAAATATAATAAAATATATTTATAAATTACGAAAAATACGAGGTATTACACACTCGGAGAGCTAGAAACTGAAAAATGCATTGTCGTGCTCTGATGAATCATAGGCTATGATTATCTGTTTATTTGATCAGTCGAACTCTGACACCGAGAAATACCTCTAGACATAATAAGGATGACTACTCTTACCTTATGTTCGTGAGCAGGCATCAAGCGACAAAGGAACTTGGTCCAAGATTGAATTTAATGCTAAGTCTAATAAATGCAGTTCAGTATAAATTAACAAGTTAATAATTCAGTGAGATCAAGTGAACCGAATGCCTAGCTAGAGGCAGCTTCAGTTCAAGTGGAGTTAATAACATTAATCCACAACTTACTCTTTACTGAACCCGTAGGGTCACACAAATAGTACGTGAACGGATCAAGTATTTAAGTGAATATTCATTAAGTACTCTATTTATGATCATTCGGAAATGACGGATCTCGGTTCCAGTGGGAGCAGAAATCGTCAAAAGGCAAAGCAAAGAATATTTCGGAAATGAAGATATTGCCGGAAACGGCAATATGGTTCATGACATAAATATAAATATTATCCAAGGTCGTAAATGTTGCCGGAAACGGAAACATGGTTCGTACCGGAAAATGTTAGCGGAAATAGAAATATTGCCGGAATCGGAAATATTGCTGGAAACGGAAATATTACCGGAATCGGAATTATTGTTGGAATAGAAAATCATTTCCGGAATCGGAAATATTAACGGAAAAGCAAATATTTGATCGAAACGAAAATAGATTTCCGAATCAAAAAACGAATCGAAAGCTCGACGAGCGACAAGCCGGCAAGCGAGCCGGCTTATCGCTCGACAAGAAAAAGGCCGAGCGCACAGCACTGGGCGCGAAGCCCAGCACCAAACGCCCATCCGTTAGTGATGGGCCATACAGTGCTGTGGGCTGCGGCAGGCCGTGGGCAAGCAGCAACCAAGCCGCACCAAGCAACGGGCCAAAGGTCGAATGCAAGGCACGCTTACGCCTGGTCAGGCGCGCGCCAATCGTGGGCCTCATGGCTGCGTATGGGTGTGCGTCTTAGCCTTGTCCGACTACTTAGTCGCCAAGTAACTTGGGTGTTAAGTTTAGTTTTTCTAGTCCTGCTAGAATTTGATTATTAGGAGTTTAATTATTCTTGTAACTCTAATTGGTTAAGAATTACAATCCTAATAGGATTTGTAATTGTTTTCCTAGTGGGACTCAAATTCTTTATTTCCTACCCTATAAATATGAGGCTAGCCCTCATAATTTAATAACTCATATCATATTCTTTACTTAGATTGTGTTCAAGGGAGAACATAGTTTATAGCCTAACCCGAGTGCATAAAACCTTAGTGAATATCCTAGTTGGTTGAACCTAAGGCGGATCAAAACGTGCTATGGAGGGGAGACACTTACAGCTCTAAAGACTTCACTAATACAAAAACACCTTTATAAGTTGCCCTTTTAGAGTCGCCTCAAATTAATGTGTGACACCAAAACATTTAGAGTCCCATTTTATATAAAAGGCGACACATAAAGTTGCTAGCAGATATTTCAAAGAGATAGCTGTAGGGGTTTTTTTTTGTGCAATTGTTTCCCGTTCTACAAGAGGGGCGGTTCTTTAGAAAACCACTGTATTTTTGTACCTCGAAGGAGTCGCCTCCAAACATTGTTTAAAGTCTCGTTAGGGAAGACCGCAAGTGACTCTTTTTTTGGATAAGGCTTTGAATCCTCGAAACGGAAGGGTGAGATCCGGGCACGGGAACGAAATGCTTATTCCGCGAGCTTTAGAAATATTCAAGTACGTTGGCACAACATTTTCGAAAATATACCCTAGATTAGACTATGTGGGGTTTGAATTTGGAGCAAATAGAATCTCTAATTGTATGGTGGTCACTTTGCTTTAAAGATTGATTTAAAGGAACCTAAGGCCGGTTTGTCCAAGAAATTATCTTTGTTAAGCGTGATGTAACCTTGTATTTTGTTGTATTTAGCATGTGTGGTGATGAAAGCAATAAAGCAAATAAAGCAACATCACAATACTAAATAAAGTGCGGAATTAGTAAATACAAGACCCCCTAGAAATGGACTAGGGAGTAGGTCGACATTGCCTAGAAATGGACTAGGCAAGTAAAGATGCGGAATTGAAAGTGCGGAATTGAAATTTCGGTATTGAAATTGCGGTATTGAAAGTGCGATATTGAAATTGCGGAATTGAAAGGTGCGATATTGAAATTGCGGAATTGAAAGGTACGATATTGAAATTGCAATATAGAATGGTGCATAATTGAAACTTGTACTTGGGCACATGAGATTCGAACGCCAAGCGGCTCCTTAAAATTAAGTGCGCCCGACACGAATTCAAAGCCAAAAATCTCAACTTGGGAGAGGTTGCTCAACCCAAATATCCTAGACTTTGCATATTGAACTTGAATTTGAAAACTTGAATATTGAAGTATTGAATTTGAAAGCTTAAATATTGAAGTATTGAACTTGAAATAATTGAAATTAAGAGGCTTGAATCTCAAAGGTCGGGCCTTTTAATGTTGAAAAGGCTAGACCTTTGATATGCTCTCACTTGAAAGGATCCTAGTTTAGGGAAGTAGTCGTGAGCAACCCTAAACATGGTGGGATCTTGAAATTTGAAAACTTGAACTTGTATATTGAAAAATGGAGTTTTGAATCTCAAAAGACTAAACCTTTAAGAGTTAAAAAGGTATCATCTTTGATTACTCCATACTTGAAGGTGATTCTAGTTCAAAGAGGTGATTGTAAACAACTTTAAACATCCTTGAATCTTGAAAGTTTGCATTTTTGTATTTTGAAAAAGTTTGGATTTTTGAAAAACATGTATGATTGTTGCAAGTGGCATTTTTAATAATAAAAATGCCAACTTGCTAATCATTTTGAAATCAAAACAACATGATTGATTAGAGTGGGATTCGGATTTACCTATTTAGGTTTAGGCAAGAGCTCCCAATTGCTTTAGAATTAGAGATTTTGTATGTGTTTTGAAGGGTTTTTTATTTGTATTTTGAGGCGTAATGTCAGTATTACGACGTTGTATTCTGTTTTTCCTCTCCCTTTGATGCTGAAAATGAGGGGTCTTTATAGGAGGAATGGGTGCAAGACGTCAGCACACGCCAGCGCAGCACGCCGAGGCAGCGCTGGGCGCTGGTGACGTGGCGTGAATGCCGCCAAAGCAAGGACGCGGGCTCCGTCCTTGTTTCGTCTTGTAGTGATGTACCTTTGTACGAATAGTACTAGGCTTGGCGTTTTGTGTTTGCTTGGAGGTTAAGGCATTATTTTGCGTCNCTTGTTTCGTCTTGTAGTGATGTACCTTTGTACGAATAGTACTAGGCTTGGCGTTTTGTGTTTGCTTGGAGGTTAAGGCATTATTTTGCGTCTAAAAACAAGCCTTTCTCGGGTTTTAATTTCCGCTTTTACGGGACGGGGCCCGGCATGCTCGGTTTTGTGGGTCGGCGCCCGAATTTGACTTGCCTTATATGATTTTGAGTGGAAAAGGCCTAGTAAAACCAATGGGATGGTCTACTAGATGACTTGGATTTTGAAAGTTGTATTTTGTACCGAGTTCCGGGAGGGGAACGGCCTCGGGAATTGGATTNTTGGATTTTGAAAGTTGTATTTTGTACCGAGTTCCGGGAGGGGAACGGCCTCGGGAATTGGATTTTGGATTTTGAATTTGGAAATGTTCTTAGCAATTGGGATTTCCGCCCGGAGTTATTCCAATCACAAATTAGGTGTCTACACTAGCGTGTCGCCTGTGTTTTAAAATGAGACTCTAAAAGTTTTGGTGTCGCACATTAATAACAGGCGACACCTATTTCTTATTAAATTTTCTTTTCAATATTTACTTAAAAAATCAAATTAAATATTTTCAGTGTCGCCTGTGTTAAAGAATTGGACTCTAAAAGTTTTGGTGGTGCACATTGATAACAGGCGAGACCTTTTTTTTTTTAAATAAAATAAAATGAAATACTTTTAGTGTCGCCTGTGATATAAAATGGGACTCTAAAAAGCGTCGGTGTCGCACATTAAAACAGACGACACCTAGGTCTCCTTAATTTAATTTAATTTTTTTTCTTGAAAATCAAACGAAATAGTTTTAGTGTCACCTGTTAATTGTTGTACGAAATAATAAGCGACACTAGATAAAATTTCCACACTGTATTAGAATTATTAGCATACACTACATCAGAAAAAACAATTAAAAAATAAAATTACGGGATTAAAATCCGAATCACTGATTAAATAAATAAATTCCCTGGACGAATATTTTCTAAAGATTTTCCAATTAAAATAACTAAAAATTTCCTAAAGATTTCGAAGAAATTCAACCAGCTTTAACCTAATCTTAATCTCTTAAGTCTCTCTTAATCTTGTAGTTCTCGCCAATCAGTGGAGAAACTATAGAGAATCCCGGTGGGTCACAACAAAACTTTTCAAAAACTTTAAAAAAAACTTAAGAAAAAAATTTTTGTCCAAAATGTAGACAGTACAGACCCGAAAGAGTGAAATTAATTCAGACCTATTTCGCGTAATACCTACTTCTCTCCTTCCCTGCTCCCCGCCGCACAGCCTGCCCACTTGCACAGCCCTCTGACTCACCGTGTTACCATCACCGACCCTTAGGTCCACCTTCGAGACCGGCTCACAGACAGTCCACCGTCACCAGCTCTGCGGCTCACCTCACCGCCCGCCCAGCCCGCCCACTCTGCGGCTCGCCGGCTCACTGGAAGTCCACCGTCACCGCGCTCAGCTCTGCGGCTCTGCGATACCCACTCTGCGGCTCACCTTCTCACCTCACCATTCACCGTTCTTCAACACTTCCGACCCTCACCATTCACCATTCTTCAAGGTTGGTCTTTAATTGCTCTATGTTTATGTTTTCATTGCAATTTTTGATTGATTTCTTATGTTAATTACTCAAAATTTCTGTTATTGGTGATTGGAATTGAGAGATTAGTATTGTTATGAGATTGATGCTTAAGTTTTCCATTAATCATCTGAATTATTTATTTATCATGCTCATTAATTAATGCTATGATTATGTTTTATTTGGTGGAATTTGGATTCTGGTTCTGAAACTAGTGCATTTTTTTTATCAAATTGAAACAATCTGCAAAGAAAGGTAAGGGATTTCTTTGACTCGTGAAACATCTGCAAAATTGAAGTATTAATCTTAAAATTATGTTTTATACATGTATGCTACTTATTTAGTCCTTTGCTAGGTGGTGAATAGGTGAAATCTCCAAAGTTCTGAATAGAAAGAAGTACATTCTGCAAATTTTCTTTTACAGTTGATAAACGGGTTTGAGATGTCACCAAGATTGATTCACGAAAAATGGATAACCTCCAAGGTAGTAGCACTCCTCTTTCTTTTCTTATTTGATAAATCTTAGTTTTCCTTGTATAGACCTCCAAGTTCTATGATATTTCCTCAGATCAGATTGCTTAGATGTACAGAACATGTTTACTTATTGCCAGGAAAGCATCAAATAGAAGGTCCTGAGCCCACAGAGAGTCATGCTTACACGGACCTCTATCACTTTGATAAATAGAAAACCATTATAGGAAGAAATTGTCAGTCTCATTGTAGCTGCTTCATTTTTTTTTTGCAAAAAAGGATGCAGTATTCAGACCAATCGTAGGAGCCACACCAAAAGAACACCCGTAGGCGAGATTTCTGTAGCTTTTACTGTGTTTCATGAACATGCTTGAAAATCATTTAGCTCTGCTAAATAGAATATGTGACCGAAATATCAGGAGATTTCAGAGTTTGAAGATGCCCAAGAGTGTGCCTGATAGCATTGCGAAACAAGCGCAGACTTTGATTTATATTAAATGTCTTCATGAACAGAAAATTGTAGCTTTGTGCCTCAGGTTTGGTGGTTGTTTGATTGTATACTGCCTACGTTCTATTTGTAATCTTAAACTGTTCTACTCCCT

mRNA sequence

ATGAAGGAAGGAGAGGGAGGAGAGTCGCGGCGACGGGGGAAGCGGGGAACACAGGCGACAATTCGCCTCCTCGCAACAACTACGACAGGTCCACCTTCGAGACCGGCTCACAGACAGTCCACCGTCACCAGCTCTGCGGCTCACCTCACCGCCCGCCCAGCCCGCCCACTCTGCGGCTCGCCGGCTCACTGGAAGTCCACCGTCACCGCGCTCAGCTCTGCGGCTCTGCGATACCCACTCTGCGGCTCACCTTCTCACCTCACCATTCACCGTTCTTCAACACTTCCGACCCTCACCATTCACCATTCTTCAAGGTGGTGAATAGGTGAAATCTCCAAAGTTCTGAATAGAAAGAAGTACATTCTGCAAATTTTCTTTTACAGTTGATAAACGGGTTTGAGATGTCACCAAGATTGATTCACGAAAAATGGATAACCTCCAAGGAAAGCATCAAATAGAAGGTCCTGAGCCCACAGAGAGTCATGCTTACACGGACCTCTATCACTTTGATAAATAGAAAACCATTATAGGAAGAAATTGTCAGTCTCATTGTAGCTGCTTCATTTTTTTTTTGCAAAAAAGGATGCAGTATTCAGACCAATCGTAGGAGCCACACCAAAAGAACACCCGTAGGCGAGATTTCTGTAGCTTTTACTGTGTTTCATGAACATGCTTGAAAATCATTTAGCTCTGCTAAATAGAATATGTGACCGAAATATCAGGAGATTTCAGAGTTTGAAGATGCCCAAGAGTGTGCCTGATAGCATTGCGAAACAAGCGCAGACTTTGATTTATATTAAATGTCTTCATGAACAGAAAATTGTAGCTTTGTGCCTCAGGTTTGGTGGTTGTTTGATTGTATACTGCCTACGTTCTATTTGTAATCTTAAACTGTTCTACTCCCT

Coding sequence (CDS)

ATGAAGGAAGGAGAGGGAGGAGAGTCGCGGCGACGGGGGAAGCGGGGAACACAGGCGACAATTCGCCTCCTCGCAACAACTACGACAGGTCCACCTTCGAGACCGGCTCACAGACAGTCCACCGTCACCAGCTCTGCGGCTCACCTCACCGCCCGCCCAGCCCGCCCACTCTGCGGCTCGCCGGCTCACTGGAAGTCCACCGTCACCGCGCTCAGCTCTGCGGCTCTGCGATACCCACTCTGCGGCTCACCTTCTCACCTCACCATTCACCGTTCTTCAACACTTCCGACCCTCACCATTCACCATTCTTCAAGGTGGTGA

Protein sequence

MKEGEGGESRRRGKRGTQATIRLLATTTTGPPSRPAHRQSTVTSSAAHLTARPARPLCGSPAHWKSTVTALSSAALRYPLCGSPSHLTIHRSSTLPTLTIHHSSRW

Relationships

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


Feature Name	Unique Name	Type
Spo07853.1	Spo07853.1	mRNA

Homology

The following BLAST results are available for this feature:

BLAST of Spo07853.1 vs. NCBI nr
BLAST of Spo07853.1 vs. UniProtKB/TrEMBL
BLAST of Spo07853.1 vs. ExPASy Swiss-Prot
BLAST of Spo07853.1 vs. TAIR (Arabidopsis)

BLAST of Spo07853.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 0


Match Name	E-value	Identity	Description

BLAST of Spo07853.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 0


Match Name	E-value	Identity	Description

BLAST of Spo07853.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0


Match Name	E-value	Identity	Description

BLAST of Spo07853.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 0


Match Name	E-value	Identity	Description

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0015031	protein transport
biological_process	GO:0006446	regulation of translational initiation
biological_process	GO:0006121	mitochondrial electron transport, succinate to ubiquinone
biological_process	GO:0009627	systemic acquired resistance
biological_process	GO:0009414	response to water deprivation
biological_process	GO:0009737	response to abscisic acid
biological_process	GO:0006508	proteolysis
biological_process	GO:0015986	ATP synthesis coupled proton transport
biological_process	GO:0015991	ATP hydrolysis coupled proton transport
biological_process	GO:0006139	nucleobase-containing compound metabolic process
biological_process	GO:0006099	tricarboxylic acid cycle
biological_process	GO:0001731	formation of translation preinitiation complex
biological_process	GO:0016042	lipid catabolic process
biological_process	GO:0006448	regulation of translational elongation
biological_process	GO:0001510	RNA methylation
biological_process	GO:0046486	glycerolipid metabolic process
cellular_component	GO:0016020	membrane
cellular_component	GO:0045281	succinate dehydrogenase complex
cellular_component	GO:0005576	extracellular region
cellular_component	GO:0005783	endoplasmic reticulum
cellular_component	GO:0005840	ribosome
cellular_component	GO:0005886	plasma membrane
cellular_component	GO:0031972	chloroplast intermembrane space
cellular_component	GO:0016282	eukaryotic 43S preinitiation complex
cellular_component	GO:0000275	mitochondrial proton-transporting ATP synthase complex, catalytic core F(1)
cellular_component	GO:0005743	mitochondrial inner membrane
cellular_component	GO:0005739	mitochondrion
cellular_component	GO:0005852	eukaryotic translation initiation factor 3 complex
cellular_component	GO:0033290	eukaryotic 48S preinitiation complex
molecular_function	GO:0051538	3 iron, 4 sulfur cluster binding
molecular_function	GO:0051539	4 iron, 4 sulfur cluster binding
molecular_function	GO:0009055	electron transfer activity
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0051537	2 iron, 2 sulfur cluster binding
molecular_function	GO:0008177	succinate dehydrogenase (ubiquinone) activity
molecular_function	GO:0046933	proton-transporting ATP synthase activity, rotational mechanism
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0004190	aspartic-type endopeptidase activity
molecular_function	GO:0000166	nucleotide binding
molecular_function	GO:0003676	nucleic acid binding
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0008408	3'-5' exonuclease activity
molecular_function	GO:0003743	translation initiation factor activity
molecular_function	GO:0003746	translation elongation factor activity
molecular_function	GO:0005525	GTP binding
molecular_function	GO:0003924	GTPase activity
molecular_function	GO:0004806	triglyceride lipase activity

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo24416	0.80	Barchart \| Table
Spo23298	0.77	Barchart \| Table
Spo10863	0.76	Barchart \| Table
Spo09139	0.76	Barchart \| Table
Spo24190	0.72	Barchart \| Table
Spo02518	0.72	Barchart \| Table
Spo06906	0.72	Barchart \| Table
Spo05415	0.71	Barchart \| Table
Spo20605	0.70	Barchart \| Table
Spo03007	0.70	Barchart \| Table
Spo06508	0.70	Barchart \| Table
Spo05641	0.70	Barchart \| Table
Spo07448	0.69	Barchart \| Table
Spo06717	0.69	Barchart \| Table
Spo10211	0.69	Barchart \| Table
Spo11333	0.69	Barchart \| Table
Spo15092	0.69	Barchart \| Table
Spo17039	0.69	Barchart \| Table
Spo19231	0.69	Barchart \| Table
Spo02403	0.68	Barchart \| Table
Spo21716	0.68	Barchart \| Table
Spo23067	0.68	Barchart \| Table
Spo05935	0.68	Barchart \| Table
Spo15761	0.68	Barchart \| Table
Spo23396	0.67	Barchart \| Table
Spo23874	0.67	Barchart \| Table
Spo02287	0.67	Barchart \| Table
Spo15477	0.67	Barchart \| Table
Spo04683	0.67	Barchart \| Table
Spo06005	0.67	Barchart \| Table
Spo11643	0.67	Barchart \| Table
Spo18574	0.67	Barchart \| Table
Spo07969	0.66	Barchart \| Table
Spo05090	0.66	Barchart \| Table
Spo13487	0.66	Barchart \| Table
Spo24213	0.66	Barchart \| Table
Spo17057	0.66	Barchart \| Table
Spo21406	0.66	Barchart \| Table
Spo22091	0.66	Barchart \| Table
Spo06711	0.66	Barchart \| Table
Spo05232	0.66	Barchart \| Table
Spo03626	0.65	Barchart \| Table
Spo03006	0.65	Barchart \| Table
Spo20694	0.65	Barchart \| Table
Spo11455	0.65	Barchart \| Table