Microarray Probes on PGSC0003DMT400069484
Probe ID | Chip | Probe Sequence |
---|
CUST_16606_PI426222305 |
JHI_St_60k_v1 |
GTTCAATGTATTGATGAATTTGGTCTGTTCCTCTGTGAATTGAACCTTGTGTATTATTGC |
Link to Spud DB Genome Browser for Transcript PGSC0003DMT400069484
Click here to view details at Spud DB Genome Browser (opens in new window)
Source Transcript PGSC0003DMT400069484 - Homology to Model Species (BLASTX to E-value < 1e-50)
Database | Link to BLAST Hit | Frame | E-value | Score | % Identity | Description |
---|
Tomato (ITAG) | None | - | - | - | - | - |
TAIR PP10 |
AT4G26850.1 |
+3 |
0.0 |
630 |
312/406 (77%) |
mannose-1-phosphate guanylyltransferase (GDP)s;GDP-galactose:mannose-1-phosphate guanylyltransferases;GDP-galactose:glucose-1-phosphate guanylyltransferases;GDP-galactose:myoinositol-1-phosphate guanylyltransferases;glucose-1-phosphate guanylyltransferase | chr4:13499262-13501145 REVERSE LENGTH=442 |
Transcript Sequence (2104 bp)
>PGSC0003DMT400069484 2104 pgsc_dm_v3.4
TCCTCCATTATCCCTTCTCCAATTTATTATATAAATACCCACATCTCCCTGCTCTTTCTC
CCTTATCATCAACAACAACAACCAAATTTCTTCTTTTTTTCTTCCACAGTAGCAATCTAT
CAACAAAACAGAGACCCCATTACAAGAATCTTGGAATTTTAGTTTTGGGTTTAAGAGGAA
GGGGTTATTGTATTTGCAGTTTTGAGGGTAAAGCCCAGTTTAACAAGGTGTAGACATCAC
GGCTATACACAAAGTAAACCGCCGACCACTTTTACATGTTCCAGCAGTACGTCGTAAGGG
TTGTGTAACAGCTACTAACCCTGCGCCGCACGGTGGACGTGGCGCTTTGCCCTCTGAAGG
TGGCAGTCCTTCCGACCTCCTCTTCCTTGCCGGCGGCGGTTCTTTCCTCTCCTTCTCCTA
CTAGATATAGTTATACTTACCGTAGATCTCTAGCTTATTACGTACAGTTCTATCTAGTAT
TCTCTTGATTATTCGAAGAAAAACACAAAAAGATGATGCTCAAGATTAAGAGGGTTCCTA
CACTTGTTTCTAACTTTCAAAAGGATGAGGCTGATGAAATTGGTGCTCGTGGTGCTGGTT
GTGGCCGGAATTGCCTCAGGAATTGCTGCCTTCCAGGTTCAAAGCTGCCACTGTATGGTT
TCAAAAATTTGAGCTACGGCAAGTCTGTTGCCGCCGATGAAACAAAGGAATCTCCGATCG
ACTTTCTGGAATCCCTTGTTCTTGGGGAATGGGAGGATCGTCAGCAGAAAGGCCTCTTTC
GCTATGATGTCACTGCTTGCGAAACCAAGGTGATTCCTGGAGAATATGGTTTCGTTGCTC
AACTGAATGAGGGAAGGCACCTCAAGAAGAGGCCAACTGAGTTTCGAGTTGATAAGGTGC
TGCAGCCTTTTGATGGAAGCAAGTTCAACTTCACTAAGGTTGGACAAGAAGAGTTGCTCT
TTCAGTTTGAAGCAAGTGAGGAAGATGAAGTCCAGCTCTATCCAGATGCGCCAATTGATC
CTGAGAAATCTCCAAGTGTCGTTGCCATCAATGTCAGTCCCATTGAGTACGGACACGTGC
TTTTGATCCCTAAGGTCCTTGAATGCCTTCCCCAGAGGATCGACAGGGACAGCTTCCTGC
TTGCACTGCACATGGCTGCCGAAGCAGCAAACCCATACTTCCGATTGGGTTACAACAGTT
TGGGTGCATTTGCCACCATCAACCATCTTCACTTCCAGGCTTATTTCTTGGCTGTGCAAT
TCCCCATTGAGAAGGCCCCAACTCAGAAGATAACCGTCACTGATGCTGGAGTGAAGATAT
CGGAGATGCTTAATTACCCAGTTCGAGGTCTCGTCTTTGAGGGTGGAAATACTTTGGAGG
ATTTGGCCAATGTCGTCTCAGATTCTTGCATTTGTCTGCAAGAGAACAACATCCCTTACA
ATGTCCTAATCTCCGATTCAGGAAAAAGGATATTCCTTCTCCCACAGTGCTATGCAGAGA
AACAAGCTCTTGGAGAGGTCAGCGCTGAACTCCTCGACACCCAAGTCAATCCTGCTGTTT
GGGAGATTAGTGGACACATGGTCTTGAAGAGGAAGGAGGATTATGAGGGTGCAACTGAGG
CAAATGCATGGAGGCTTCTCGCCGAGGTCTCACTCTCTGAAGCAAGGTTCCAAGAAGTGA
CTGCTCTCATCTTTGAAGCTATTAGTCTCAGTGTTGAAGAGAATGAGAACGCCACTGATG
GTTCTCCTGAGGATCTAGATGTCACACCTCCACAGCCCATGGAGGAGATTGATGGTCTCA
ACACCCATAGTACCATGGTTCCCGCCTAGGGGTTTCACGGCCCAGCTCTGGTGTTTATCG
CATGTTATTATTTCATGAATTTCCATCTCTAGCTGCCCTTGTGAAATATCACTAAATAAG
GCAAAACCATGTTCAATGTATTGATGAATTTGGTCTGTTCCTCTGTGAATTGAACCTTGT
GTATTATTGCTTTTTTTCTGGTATAGCCATGTTCTATATATATATATATATATATGTAAT
GTGGGGTTGGTGTGTGAAATGACCTTGGGGTACTATGTATGCTGTTTTTAATTAAGACAA
TACT