| |
Number |
Gene |
Gene Symbol |
Method of Isolation |
Chr |
Locus ID (MSU) |
MH63 ID |
ZS97 ID |
Same or not in MH63 and ZS97 |
Function |
| |
| |
357 |
Rice homeodomain gene |
OsBIHD1 |
Overexpression |
3 |
LOC_Os03g47740 |
MH03g0569000 |
ZS03g0611100 |
Nonsynonymous |
The OsBIHD1 protein may be positively involved in activating expression of the defence-related genes in disease resistance responses, and is also important in rice development and abiotic stress tolerance. |
| |
358 |
Voltage-dependent Cl- channels |
OsCLC1 |
Mutant |
1 |
LOC_Os01g65500 |
MH01g0723800 |
ZS01g0726900 |
Same |
The ethylene response factors SNORKEL1 and SNORKEL2 allow rice to adapt to deep water |
| |
360 |
Rice dual-specificity protein kinase |
OsDPK1 |
RT-PCR |
8 |
LOC_Os08g12750 |
MH08g0158200 |
ZS08g0166900 |
Same |
The transcript levels of OsDPK1, OsDPK2, and OsDPK3 in the seedlings were significantly induced by ABA, high salinity, drought, and blast (Magnaporthe grisea Barr). These genes may belong to a novel rice gene family encoding dual-specificity protein kinas |
| |
361 |
Rice dual-specificity protein kinase |
OsDPK2 |
RT-PCR |
2 |
LOC_Os02g07790 |
MH02g0078100 |
ZS02g0079500 |
Same |
The transcript levels of OsDPK1, OsDPK2, and OsDPK3 in the seedlings were significantly induced by ABA, high salinity, drought, and blast (Magnaporthe grisea Barr). These genes may belong to a novel rice gene family encoding dual-specificity protein kinas |
| |
362 |
Rice dual-specificity protein kinase |
OsDPK3 |
RT-PCR |
6 |
LOC_Os06g45300 |
MH06g0643900 |
NA |
Gap |
The transcript levels of OsDPK1, OsDPK2, and OsDPK3 in the seedlings were significantly induced by ABA, high salinity, drought, and blast (Magnaporthe grisea Barr). These genes may belong to a novel rice gene family encoding dual-specificity protein kinas |
| |
363 |
Rice dual-specificity protein kinase |
OsDPK4 |
RT-PCR |
4 |
LOC_Os04g51950 |
MH04g0621500 |
ZS04g0740100 |
Same |
The transcript levels of OsDPK1, OsDPK2, and OsDPK3 in the seedlings were significantly induced by ABA, high salinity, drought, and blast (Magnaporthe grisea Barr). These genes may belong to a novel rice gene family encoding dual-specificity protein kinas |
| |
364 |
AP2/EREBP transcription factor gene |
OsDREB1A |
Others |
9 |
LOC_Os09g35030 |
MH09g0433900 |
NA |
Gap |
OsDREB1A is potentially useful for producing transgenic monocots that are tolerant to drought, high-salt, and/or cold stresses. |
| |
366 |
AP2/EREBP transcription factor gene |
OsDREB42; CR250 |
Mutant |
4 |
LOC_Os04g46400 |
MH04g0561100 |
ZS04g0657700 |
Same |
OsDREB genes in rice encode AP2-containing rroteins that bind specifically to the dehydration-responsive element |
| |
367 |
AP2/EREBP transcription factor gene |
OsDREB11; CR350 |
Mutant |
4 |
LOC_Os04g48350 |
MH04g0583600 |
ZS04g0677600 |
Same |
OsDREB genes in rice encode AP2-containing rroteins that bind specifically to the dehydration-responsive element |
| |
368 |
AP2/EREBP transcription factor gene |
OsDREB1E |
Mutant |
4 |
LOC_Os04g48350 |
MH04g0583600 |
ZS04g0677600 |
Same |
Over-expression of OsDREB1E could only slightly improved the tolerance to water deficit stress DREB1 gene is involved in cold-sensitive crops. |
