Report for Sequence Feature Glyma06g03160
Feature Type: gene_model
Chromosome: Gm06
Start: 2205406
stop: 2209905
Source: JGI
Version: Wm82.a1.v1.1
High confidence: yes
A newer version of this gene model can be found here:
Annotations for Glyma06g03160
Database ID Annotation Type Annotation Description Annotation Source Match Score Evidence Code
AT4G36360 AT
Annotation by Michelle Graham. TAIR10: beta-galactosidase 3 | chr4:17176840-17181143 REVERSE LENGTH=855
SoyBase E_val: 0 ISS
GO:0005975 GO-bp
Annotation by Michelle Graham. GO Biological Process: carbohydrate metabolic process
SoyBase N/A ISS
GO:0005990 GO-bp
Annotation by Michelle Graham. GO Biological Process: lactose catabolic process
SoyBase N/A ISS
GO:0006598 GO-bp
Annotation by Michelle Graham. GO Biological Process: polyamine catabolic process
SoyBase N/A ISS
GO:0009664 GO-bp
Annotation by Michelle Graham. GO Biological Process: plant-type cell wall organization
SoyBase N/A ISS
GO:0009698 GO-bp
Annotation by Michelle Graham. GO Biological Process: phenylpropanoid metabolic process
SoyBase N/A ISS
GO:0009832 GO-bp
Annotation by Michelle Graham. GO Biological Process: plant-type cell wall biogenesis
SoyBase N/A ISS
GO:0010075 GO-bp
Annotation by Michelle Graham. GO Biological Process: regulation of meristem growth
SoyBase N/A ISS
GO:0019513 GO-bp
Annotation by Michelle Graham. GO Biological Process: lactose catabolic process, using glucoside 3-dehydrogenase
SoyBase N/A ISS
GO:0019515 GO-bp
Annotation by Michelle Graham. GO Biological Process: lactose catabolic process via UDP-galactose
SoyBase N/A ISS
GO:0042398 GO-bp
Annotation by Michelle Graham. GO Biological Process: cellular modified amino acid biosynthetic process
SoyBase N/A ISS
GO:0005576 GO-cc
Annotation by Michelle Graham. GO Cellular Compartment: extracellular region
SoyBase N/A ISS
GO:0003824 GO-mf
Annotation by Michelle Graham. GO Molecular Function: catalytic activity
SoyBase N/A ISS
GO:0004553 GO-mf
Annotation by Michelle Graham. GO Molecular Function: hydrolase activity, hydrolyzing O-glycosyl compounds
SoyBase N/A ISS
GO:0004565 GO-mf
Annotation by Michelle Graham. GO Molecular Function: beta-galactosidase activity
SoyBase N/A ISS
GO:0030246 GO-mf
Annotation by Michelle Graham. GO Molecular Function: carbohydrate binding
SoyBase N/A ISS
GO:0043169 GO-mf
Annotation by Michelle Graham. GO Molecular Function: cation binding
SoyBase N/A ISS
KOG0496
KOG
Beta-galactosidase
JGI ISS
PTHR23421 Panther
BETA-GALACTOSIDASE RELATED
JGI ISS
PTHR23421:SF33 Panther
SUBFAMILY NOT NAMED
JGI ISS
PF01301 PFAM
Glycosyl hydrolases family 35
JGI ISS
UniRef100_I1K7N7 UniRef
Annotation by Michelle Graham. Best UniRef hit: Uncharacterized protein n=1 Tax=Glycine max RepID=I1K7N7_SOYBN
SoyBase E_val: 0 ISS
UniRef100_Q9ZRV9 UniRef
Annotation by Michelle Graham. Most informative UniRef hit: Beta-galactosidase n=1 Tax=Cicer arietinum RepID=Q9ZRV9_CICAR
SoyBase E_val: 0 ISS
Expression Patterns of Glyma06g03160
Gene expression representations made with eFP at the University of Toronto. Waese et al. 2017, Plant Cell 29(8):1806-1821 ePlant: Visualizing and Exploring Multiple Levels of Data for Hypothesis Generation in Plant Biology
To see more experiments click HERE Paralogs of Glyma06g03160
Paralog Evidence Comments
Glyma04g03120 IGC Paralogs in soybean determined by Steven Cannon using BLAST, DAGChainer, PAML, and selection of gene pairs from synteny blocks with median Ks values of less than 0.3.
Gene model name correspondences to Glyma06g03160 Gene Call Version Wm82.a1.v1.1
Corresponding Name Annotation Version Evidence Comments
Glyma.06g028700 Wm82.a2.v1 IGC As supplied by JGI
References for Glyma06g03160
Coding sequences of Glyma06g03160
Show Sequence BLAST Sequence at SoyBase BLAST Sequence against GenBank NT Limit To All Plant Sequences
>Glyma06g03160.1 sequence type=CDS gene model=Glyma06g03160 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
ATGGATATCATTACCAATTTAGTTTCGAAGCTACTCACATTGTTTCTCACGGTCTTGTTTGTGGGTTCTGAGCTCATACACTGCAATGCTACCTACGATAGAAACTTTGTGTTGTTTTGTTTGCTTCAAATGTGGGAGGATCTAATTCGGAAGGCCAAACACGGAGGACTTGATGTCATAGACACTTATGTCTTCTGGGATGTCCATGAACCTTCTCCTGGCAATTACAATTTTGAAGGAAGGTATGATCTAGCACGGTTCATTAAGACGGTGCAGAAGTGGAACTTTGGAGGAATTCCTGTATGGTTGAAGTATGTTCCTGGCATAAGTTTCAGAACGGATAATGAGCCTTTCAAGGCGGCAATGCAAGGTTTCACGCAGAAAATTGTCCAGATGATGAAGAGTGAGAAGTTGTTTCAGTCTCAGGGTGGTCCAATCATTCTCTCTCTGATTGAGAATGAGTACGGACCAGAGAGTAGGGGAGCTGGTGGCCGTGCATACGTAAACTGGGCTGCAAGAATGGCTGTTGGATTGGGTACAGGAGTGCCCTGGGTGATGTGCAAGGAAAATGATGCCCCAGATCCTGTGATAAATTCATGTAATGGTTTTTACTGTGATGATTTCTCTCCAAATAAACCATACAAGCCTAGCATATGGACTGAGACTTGGAGTGGCTGGTTTACAGAATTTGGCGGCCCAATTCACCAGCGACCAGTTGAGGATCTATCATTTGCAGTTGCTCGTTTCATACAAAAGGGTGGCTCATATGTGAATTATTACATGTACCATGGAGGAACTAACTTTGGACGATCAGCTGGAGGCCCGTTCATAACTACAAGCTATGACTATGATGCTCCAATTGATGAATATGGTTTGATCAGGCAACCAAAATATAGTCATTTGAAGGAGCTTCATAAAGCTATCAAGCGATGTGAACATGCTTTGGTGTCTTCGGATCCCACAGTTTCGTCATTAGGAACACTACTGCAGGCATTGGCTCATGTATTCTCTACAGGGACTGGAACATGTGCAGCATTTCTAGCAAACTATAATGCACAGTCAGCTGCTACCGTGACATTCGATAGCAAGCACTATGATTTACCTCCTTGGTCCATAAGCATCCTTCCTGATTGCAAAACTGATGTATTTAATACTGCAAAAGTGAGAGTTCAATCTTCACTGGTGAAAATGCTTCCGGTCAAAAAAAAGTTCTCATGGGAGAGCTACAATGAAGATCTATCTTCTCTGGCCGAAAATTCAAGGATTACAGCTCCTGGACTCTTAGAACAGCTGGACGTTACTAGAGATACCAGTGACTATCTATGGTACATAACCAGCATTGGCATAAGTTCATCAGAATCCTTTTTTCGAGGGGGACAAAAACCAAGCATTAATGTGAAGTCCGCAGGACATGCTGTTCGTGTGTTTGTTAATGGCCAATTTTCAGGTTTGCAGAATTGCAGGTCGGCTTTTGGGACTAGGGAGCAGAGAAATTGCACGTTTAATGGACCTGTTGACCTCCGCGCTGGAACAAATAAAATTGCTCTTCTCAGCGTGGCTGTTGGATTACAGAATGTTGGTCGGCATTATGAAACTTGGGAGGCAGGAATCACTGGTCCAGTTTTGATCCATGGTCTTGACCAAGGACAGAAAGATTTGACGTGGAACAAGTGGTCATATAAGGTTGGCCTAAGAGGAGAGGCTATGAATCTGGTATCTCCCAATGGGGTCTCGTCTGTTGATTGGGTCCAAGAGTCACTAGCTACTCAAAGCCGGTCACAATTGAAATGGAACAAGGCGAGGGAACAGTTACTTGCTTATATAGCTTGTTTTAATGCACCCGAGGGAAACGAACCACTGGCTTTGGACATGGCAAGCATGGGTAAGGGTCAAGTATGGATCAACGGGCGGAGCATAGGGAGATATTGGCTGGCTTATGCAAAGGGTGACTGTAATTCTTGCACTTATTCTGGGACCTTCAGGCCTGTAAAGTGCCAACTTGGTTGTGGACAACCCACTCAACGATGGTATCACGTTCCAAGGTCGTGGCTGAAGCCAACAAAGAACTTGATAGTAGTGTTTGAAGAATTAGGTGGAAATCCTTGGAAAATATCTTTGGTAAAGAGAGTGGCACATACTCCGGCAGTTCATGGGTAG
Predicted protein sequences of Glyma06g03160
Show Sequence BLAST Sequence at SoyBase BLAST Sequence against GenBank NR Limit To All Plant Sequences
>Glyma06g03160.1 sequence type=predicted peptide gene model=Glyma06g03160 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high
MDIITNLVSKLLTLFLTVLFVGSELIHCNATYDRNFVLFCLLQMWEDLIRKAKHGGLDVIDTYVFWDVHEPSPGNYNFEGRYDLARFIKTVQKWNFGGIPVWLKYVPGISFRTDNEPFKAAMQGFTQKIVQMMKSEKLFQSQGGPIILSLIENEYGPESRGAGGRAYVNWAARMAVGLGTGVPWVMCKENDAPDPVINSCNGFYCDDFSPNKPYKPSIWTETWSGWFTEFGGPIHQRPVEDLSFAVARFIQKGGSYVNYYMYHGGTNFGRSAGGPFITTSYDYDAPIDEYGLIRQPKYSHLKELHKAIKRCEHALVSSDPTVSSLGTLLQALAHVFSTGTGTCAAFLANYNAQSAATVTFDSKHYDLPPWSISILPDCKTDVFNTAKVRVQSSLVKMLPVKKKFSWESYNEDLSSLAENSRITAPGLLEQLDVTRDTSDYLWYITSIGISSSESFFRGGQKPSINVKSAGHAVRVFVNGQFSGLQNCRSAFGTREQRNCTFNGPVDLRAGTNKIALLSVAVGLQNVGRHYETWEAGITGPVLIHGLDQGQKDLTWNKWSYKVGLRGEAMNLVSPNGVSSVDWVQESLATQSRSQLKWNKAREQLLAYIACFNAPEGNEPLALDMASMGKGQVWINGRSIGRYWLAYAKGDCNSCTYSGTFRPVKCQLGCGQPTQRWYHVPRSWLKPTKNLIVVFEELGGNPWKISLVKRVAHTPAVHG*
SoyBase
SoyBase transitions to NEW site on 10/1/2024
