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Effects of water stress on male gametophyte development in plants
Hargurdeep S. Saini
Research output
:
Contribution to journal
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Article
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peer-review
206
Citations (Scopus)
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Dive into the research topics of 'Effects of water stress on male gametophyte development in plants'. Together they form a unique fingerprint.
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Keyphrases
Water Effect
100%
Water Stress
100%
Water Deficit
100%
Reproductive Tissues
100%
Male Gametophyte Development
100%
Male Sterility
66%
Stress-induced
33%
Stress Response
33%
Gene Expression
33%
Signaling Molecules
33%
Further Development
33%
Desiccation
33%
Highly Sensitive
33%
Metabolic
33%
Female Fertility
33%
Water Loss
33%
Invertase Gene
33%
Microspore
33%
Acid Invertase
33%
Pollen Grains
33%
Anther
33%
Meiosis
33%
Carbohydrate Metabolism
33%
Water Status
33%
Microspore Mother Cells
33%
Carbohydrate Allocation
33%
Long-distance Signaling
33%
Sugar Concentration
33%
Male Reproductive Development
33%
Abscisic Acid
33%
Photosynthesis Inhibition
33%
Vegetative Cells
33%
Agricultural and Biological Sciences
Water Stress
100%
Microspore
100%
Invertase
100%
Gene Expression
50%
Photosystem
50%
Anther
50%
Female Fertility
50%
Meiosis
50%
Carbohydrate Metabolism
50%
Abscisic Acid
50%
Biochemistry, Genetics and Molecular Biology
Water Deficit
100%
Male Gametophyte
100%
Microspore
66%
Invertase
66%
Gene Expression
33%
Enzyme
33%
Meiosis
33%
Carbohydrate Metabolism
33%
Photosystem
33%
Female Fertility
33%
Abscisic Acid
33%
Desiccation
33%
Water Loss
33%
Immunology and Microbiology
Water Deficit
100%
Male Gametophyte
100%
Microspore
66%
Gene Expression
33%
Meiosis
33%
Water Loss
33%
Carbohydrate Metabolism
33%
Desiccation
33%
Female Fertility
33%
Photosynthesis
33%
Anther
33%