Hg49737 gene and salt resistance application thereof

Hg49737 gene and salt resistance application thereof

The invention provides a halogeton Hg49737 gene and application of the halogeton Hg49737 gene in regulation and control of Na < + > efflux. The functions of the gene are verified by cloning the halogeton Hg49737 gene, constructing a subcellular localization vector and performing yeast defect t...

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Hauptverfasser: WANG JUNCHENG, LI BAOCHUN, SUN LUJUAN, MA XIAOLE, LEE JOHN HYUNG, MENG YAXIONG, SI ERJING, YANG KE, LIU XIANGSHAN, LI PENGCHENG, YAO LIRONG, CHEN QIAN, ZHANG WENPAN, HUANG ZHILEI, LU WENJIA, WANG HUAJUN
Format: Patent
Sprache:chi ; eng
Schlagworte:
AGRICULTURE
ANIMAL HUSBANDRY
BEER
BIOCHEMISTRY
CHEMISTRY
COMPOSITIONS THEREOF
CULTURE MEDIA
ENZYMOLOGY
FISHING
FORESTRY
HUMAN NECESSITIES
HUNTING
METALLURGY
MICROBIOLOGY
MICROORGANISMS OR ENZYMES
MUTATION OR GENETIC ENGINEERING
NEW PLANTS OR PROCESSES FOR OBTAINING THEM
ORGANIC CHEMISTRY
PEPTIDES
PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
PROPAGATING, PRESERVING OR MAINTAINING MICROORGANISMS
SPIRITS
TRAPPING
VINEGAR
WINE
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Beschreibung
Zusammenfassung:The invention provides a halogeton Hg49737 gene and application of the halogeton Hg49737 gene in regulation and control of Na < + > efflux. The functions of the gene are verified by cloning the halogeton Hg49737 gene, constructing a subcellular localization vector and performing yeast defect type genetic transformation. It is found that the halogeton glomeratus Hg49737 gene can promote Na < + > efflux, and the salt tolerance of plants is remarkably improved. Related candidate genes and theoretical basis are provided for salinized soil improvement and cultivation of salt-tolerant plant (crop) new varieties. 本发明提供了盐生草Hg49737基因及其调控Na+外排方面的应用,通过克隆盐生草Hg49737基因,构建亚细胞定位载体和酵母缺陷型遗传转化验证该基因功能。发现盐生草Hg49737基因能够促进Na+外排,显著提高植株耐盐性。这将为盐渍化土壤改良与耐盐植物(作物)新品种的培育提供相关候选基因和理论依据。