Microarray Probes on PGSC0003DMT400053854
Probe ID | Chip | Probe Sequence |
---|
CUST_51624_PI426222305 |
JHI_St_60k_v1 |
TTTAGGACAGGGGAATTACTGTCTTGAAAACTCTAGCAGAGGTGTACATAACAGAAAAAA |
Link to Spud DB Genome Browser for Transcript PGSC0003DMT400053854
Click here to view details at Spud DB Genome Browser (opens in new window)
Source Transcript PGSC0003DMT400053854 - 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 |
AT5G49690.1 |
+3 |
1e-63 |
220 |
154/482 (32%) |
UDP-Glycosyltransferase superfamily protein | chr5:20189968-20191350 REVERSE LENGTH=460 |
Transcript Sequence (1974 bp)
>PGSC0003DMT400053854 1974 pgsc_dm_v3.4
TAAACATCTTTTTTCTTTGTTATCAAATCACTAGGAAACTTCTATATAAGATAGGGCAGC
AACCTCAATACAACAATATAAGGTACAAATTCTGTAGATTTCTCGATATACTAAGTTTGA
ACCAAAGTTACTGAATTCTGTCGAATTCGTATTTTCTATACTAGACTAGATTCATCCCTA
TGGAGGCAAAGAAGCACACCATTAGTGTACTTATGTTACCTTGGCTAGCTCATGGTCACA
TAAATCCATTTCTAGAGTTAGCGAAAAAGCTTGCAAGTAAGAACTTCCACATTTACCTGT
GTTCTACTCCGGTAAACCTGAACTCCATCAAGAAAAGAGTCAGTGAGAAGTATTCTCAGT
CGATAGAATTAATCGAGCTTCATCTTCTGTCTTTACCAGATCTTCCTCCTCATTACCACA
CTACAAATGGCCTCCCACCTCATCTCATGAACACCCTCAAAACAGCTTTTGAACTCGCCT
CTCCGAATTTTTCCAAAATATTACAAACTCTGCATCCGGATTTGGTCATTCATGACTACA
ATCAGCCATGGGTTACTGATTCGGCTTCCTCTATGAACATTCCTGCTGTGCAATTCCCTA
CTTTTAGTGCAACTGTTGTAGCTTTGGCCATCCACATGTCTGACAACACAGAGGAGAAGT
TCCCGTTTCCTGAAATTTACCTGCGGGAACACGAAATGATTTCACTGAAAAAAGATATTG
ATGAAGTACCAAGTAAGAAGTTCCCATACGACGAGGCTATTAGGCGATCACATGACATTA
TTCTAGTGAAAACTTGCAGAGATTTTGAAGGGAAATATATAGATTATCTTTCAAATTTGA
CTTCCAAGAAAATTGTCCCCGTTGGTTCGCTAGTTCAAGAATCCATGGATCAAGATGATT
ATGAGGAAATCGCGCAATGGCTTGACAAGAAAGAGAAAAGTTCAACTGTGTTCGTTTCAT
TTGGGAGCGAGTATTTTCTATCCAAGGAGGAAATACTTGCAGTAGCTCAAGGGCTAGAGC
TTAGCAAAGTGAACTTCATTTGGGTCATCAGGTTTCCACAAGGTGAAAGACTTAACATTC
GAGATGCATTACCGGAAGGGTATCTTGAAAGGGTAGGAGAAAGAGGAATGATTATGGAAG
GATGGGCTCCACAAGCATTGATTCTTCAACATCCATCGATAGGTGGATTCGTGAGTCACT
GTGGATGGAGTTCATTCATGGAAAGTATGAAGTTTGGTGTGCCTATAATTGCCATGCCAA
TGCACATTGATCAACCAATGAATGCTAGGCTTGTGGAATATATCGGTGTGGGAGTGGAAG
CAGCGAAGGACGAGGATGGGAAGTTACAAAGCGAAGAGATTGCAAAGGCAATAAGGGAAA
AGTTACAAAGTGAAGAGATTGCAAAGGCAACAAGGGAAGTGTTAGTGGAGGAAAGCGGGG
AGGCTGTGAGGAAGAAAGCTAAGGAACTGAGTGAGAAGATGAACGCAAAAGAGGATGAAG
AGATAGATGGCGTGGCGGAAGAACTGGTGGCACTTTGTAGCAACAAATGATTAGCAATAA
TAGTAAATGTCAGTCTAGTGTAACTCAACTGTTATAGTAAGTTGAGAGTACTAATCATCT
TATTACCAATAATCACTACAAGTAATAACCTTAGAAATGATTCAGCAGAATGTAAGTTGT
ATCCAAGAAAAACATGCATCAAGACGTAATTCCGAGCCAGCATTATGCTTGAATCAGAAC
AGACTGTTAACATCACACATTCCACAGAGAAATACGCGCAATTTCGTGCATTAAGACATG
ATGTCAAACAAAGGGAAACTAGTGAAGATGCAAAACCAAACCATTAAGTAATAAAAATCA
ACAAGCGAACTCATTTTCAAAGCATTTAGGACAGGGGAATTACTGTCTTGAAAACTCTAG
CAGAGGTGTACATAACAGAAAAAAACTCAGTGAAGCATTACATCAAACACCTTG