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Regulation and Expression of Plant Genes in Microorganisms

1989
Publisher Summary The expression of plant genes in microorganisms has been used to investigate a wide range of biological issues, including the production of plant proteins to be used either in research or commercially and the elucidation of the mechanisms of gene regulation in plants based on observations of the types of plant gene expression in ...
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Alternative polyadenylation and gene expression regulation in plants

WIREs RNA, 2010
AbstractFunctioning as an essential step of pre‐mRNA processing, polyadenylation has been realized in recent years to play an important regulatory role during eukaryotic gene expression. Such regulation occurs mostly through the use of alternative polyadenylation (APA) sites and generates different transcripts with altered coding capacity for proteins ...
Denghui, Xing, Qingshun Quinn, Li
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Plant Gene Expression, Regulation of

2006
Eukaryotic genomes are much more complex than prokaryotes and plant genomes present more complexities than other eukaryotes. The continuous process of development, absence of germ-line, flexible and reversible cellular differentiation, polyploidy, and so on, are characteristic features that distinguish plant genomes from other eukaryotes.
Pravendra Nath   +3 more
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The regulation of gene mutation in plants

Proceedings of the Royal Society of London. Series B. Biological Sciences, 1970
Abstract This discussion is based largely on work on mutable genes in maize by McClintock (1946-68, 1965), Brink and his associates (Barclay & Brink 1952; Brink & Nilan 1952), and Peterson (1966), with some points illustrated by reference to my own studies on Antirrhinum majus in collaboration with B. J.
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Regulation of gene expression in chloroplasts of higher plants

Plant Molecular Biology, 1996
Chloroplasts contain their own genetic system which has a number of prokaryotic as well as some eukaryotic features. Most chloroplast genes of higher plants are organized in clusters and are cotranscribed as polycistronic pre-RNAs which are generally processes into many shorter overlapping RNA species, each of which accumulates of steady-state RNA ...
M, Sugita, M, Sugiura
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Regulation of plant gene expression by alternative splicing

Biochemical Society Transactions, 2010
AS (alternative splicing) is a post-transcriptional process which regulates gene expression through increasing protein complexity and modulating mRNA transcript levels. Regulation of AS depends on interactions between trans-acting protein factors and cis-acting signals in the pre-mRNA (precursor mRNA) transcripts, termed ‘combinatorial’ control ...
Simpson, Craig G.   +10 more
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Regulation of plant gene expression

Philosophical Transactions of the Royal Society of London. B, Biological Sciences, 1986
Abstract Differential gene expression is required to establish and maintain specific developmental states in higher plants. For example, an anther has at least 11000 diverse mRNAs that are absent from the polysomes of other organ systems, and the root has at least 7000 organ-specific mRNAs.
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Phytochrome regulation of nuclear gene expression in plants

Seminars in Cell & Developmental Biology, 2000
The photoregulation of gene expression in higher plants was extensively studied during the 1980s, in particular the light-responsive cis -acting elements and trans -acting factors of the Lhcb and rbcS genes. However, little has been discovered about: (1) which plant genes are regulated by light, and (2) which photoreceptors control the expression of ...
N, Kuno, M, Furuya
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Regulation of Proteinase Inhibitor Genes in Food Plants

1986
Proteinase inhibitor proteins in the families Solanaceae, Leguminosae and Graminae are stored in seeds and tubers and are also found to accumulate in leaves in response to pest attacks. The isolation of the proteinase Inhibitor I cDNA and its gene from tomato has provided information concerning proteinase inhibitor synthesis, processing and ...
W E, Brown   +3 more
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Gene regulation by NO in plants

2022
Alireza Iranbakhsh   +2 more
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