| Allele Name | tm2905 |
| Balance | Completed |
| OutCross | Not Accepted |
| Sequence Name | F26H9.4 |
| Gene Name | F26H9.4 |
| Worm Base | Allele Name |
tm2905
(x1) |
| Gene Name |
F26H9.4
|
| Sequence |
F26H9.4
|
Phenotype
Information from the receiver is posted in the form
of a "researcher : phenotype"
| lethal or sterile. |
|
Mutation site
Please see gene structure to locate the deletion in
relation to exon(s)
| 18699/18700-19219/19220 (520 bp deletion) |
| Chromosome | I |
| Putative gene structure | complement(join(18360..18725, 18932..19055, 19100..19209, 19257..19328)) |
| Map position | 3.74 |
| Balancer | hT2,hT2 [bli-4(e937) let-? qIs48] |
| Map position of balancer | |
| Sequence of primers | IntRev:TCTTGCCGTCGGGTCGTTCA,ExtRev:GTATCCTGATTTTCCACCTG,IntFwd:AACTAACTCCACTGGGACAC,ExtFwd:ATAACCTCATCTGGCGTCGA |
| Distributed lab | |
| Depositor | Dr. S. Mitani/NBRP |
| References |
Please submit your publication
Kim KW, Tang NH, Piggott CA, Andrusiak MG, Park S, Zhu M, Kurup N, Cherra SJ 3rd, Wu Z, Chisholm AD, Jin Y.
Expanded genetic screening in Caenorhabditis elegans identifies new regulators and an inhibitory role for NAD+ in axon regeneration.
Elife 2018 7
[ PubMed ID = 30461420 ]
[ RRC reference ]
|
Wang W, McReynolds MR, Goncalves JF, Shu M, Dhondt I, Braeckman BP, Lange SE, Kho K, Detwiler AC, Pacella MJ, Hanna-Rose W.
Comparative Metabolomic Profiling Reveals That Dysregulated Glycolysis Stemming from Lack of Salvage NAD+ Biosynthesis Impairs Reproductive Development in Caenorhabditis elegans.
J Biol Chem 2015 290(43) 26163-79
[ PubMed ID = 26350462 ]
[ RRC reference ]
|
|
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