生物種
|
リソース名
|
RRC ID
|
タイトル
|
ジャーナル
|
公開日
|
外部リンク
|
アサガオ
|
Q510
,
Q513
,
Q531
,
Q532
,
Q533
,
Q1017
,
Q1089
,
Q1096
,
Q1097
,
Q1141
|
66116
|
Reduction in organ-organ friction is critical for corolla elongation in morning glory.
|
Commun Biol |
2021-3-5 |
Pubmed
Full text
|
アサガオ
|
pYAS101
|
35943
|
The Petal-Specific InMYB1 Promoter Functions by Recognizing Petaloid Cells.
|
Plant Cell Physiol |
2016-3-1 |
Pubmed
Full text
|
アサガオ
|
Q0079
|
32266
|
Length of the dark period affects flower opening and the expression of circadian-clock associated genes as well as xyloglucan endotransglucosylase/hydrolase genes in petals of morning glory (Ipomoea nil).
|
Plant Cell Rep |
2014-7-1 |
Pubmed
Full text
|
アサガオ
|
AK1
,
AK31
,
AK33
|
29120
|
A WD40-repeat protein controls proanthocyanidin and phytomelanin pigmentation in the seed coats of the Japanese morning glory.
|
J Plant Physiol |
2012-3-15 |
Pubmed
Full text
|
アサガオ
|
|
11907
|
Autophagy regulates progression of programmed cell death during petal senescence in Japanese morning glory.
|
Autophagy |
2009-5-1 |
Pubmed
Full text
|
アサガオ
|
|
11905
|
Reduction in the critical dark length for flower induction during aging in the short-day plant Pharbitis nil var. Kidachi.
|
Sex Plant Reprod |
2010-12-1 |
Pubmed
Full text
|
アサガオ
|
|
11904
|
Flowering and dwarfism induced by DNA demethylation in Pharbitis nil.
|
Physiol Plant |
2010-5-1 |
Pubmed
Full text
|
アサガオ
|
EST clones
|
11901
|
Constitutive expression of the GIGANTEA ortholog affects circadian rhythms and suppresses one-shot induction of flowering in Pharbitis nil, a typical short-day plant.
|
Plant Cell Physiol |
2011-4-1 |
Pubmed
Full text
|
アサガオ
|
|
3798
|
PnMADS1, encoding an StMADS11-clade protein, acts as a repressor of flowering in Pharbitis nil.
|
Physiol Plant |
2008-8-1 |
Pubmed
Full text
|
アサガオ
|
|
3797
|
The gravity-regulated growth of axillary buds is mediated by a mechanism different from decapitation-induced release.
|
Plant Cell Physiol |
2008-6-1 |
Pubmed
Full text
|
アサガオ
|
|
728
|
Shoot circumnutation and winding movements require gravisensing cells.
|
Proc Natl Acad Sci U S A |
2005-12-20 |
Pubmed
Full text
|