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| SeeDev-binary@ldeleger |
SeeDev-binary-9657152-2 |
Higher
plant embryogenesis is divided conceptually into two distinct phases:
early morphogenetic processes that give rise to embryonic cell types,
tissues, and organ systems, and late maturation event |
6.06 KB |
2020-02-07 |
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436 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-11489176-2 |
The phytohormone abscisic acid (ABA) can regulate many agronomically important aspects of plant growth, including seed maturation, onset of seed dormancy, and adaptation to assorted environmental stre |
5.85 KB |
2020-02-07 |
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595 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-21330492-5 |
Interestingly, after the heart stage, fus3-3 dcl1-15 and lec2-1 dcl1-15 embryos have high levels of chlorophyll and pAt2S3:GFP, something not seen in either fus3-3 or lec2-1 embryos (Meinke et al., 19 |
353 Bytes |
2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-11573014-2 |
The pleiotropic effects of lec mutations, represented
in Fig. 1, suggest that the LEC genes serve as central
regulators of embryo and seed development. This prediction was
confirmed by showing that LE |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-14701918-5 |
Developmental Regulation of MUM4 during Seed Coat Secretory Cell Differentiation by AP2, TTG1, and GL2
MUM4 transcript increases in differentiating siliques at the time of mucilage production. Two lin |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-14701918-8 |
Although the defect in mucilage production is readily explained by the putative
function of MUM4 as an NDP-l-Rha synthase, the connection with the columella shape change is less obvious. At least two |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-17204538-3 |
It has been reported that expression of the ERF genes including AtEBP is regulated by AP2 activity (Okamuro et al., 1997). This observation lead to the investigation of the transcriptional regulation |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-17999645-4 |
The interaction of AGL15 with members of the SIN3/HDAC1 complex suggests a mechanism that could explain its function as a transcriptional repressor in planta
Histone deacetylase (HDAC) enzymes remove |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-21635767-4 |
To gain insight into possible relationships in gene coexpression and regulation, we
first identified the expression patterns for several TFs known to regulate the accumulation
of seed storage reserves |
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2020-02-07 |
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| SeeDev-binary@ldeleger |
SeeDev-binary-17999645-1 |
MADS-domain proteins comprise a large family of regulatory factors that have been identified in all eukaryotic kingdoms, and are involved in a diverse array of biological functions (for reviews, see B |
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2020-02-07 |
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