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Abscisic Acid
Abscisic Acid
A homeodomain leucine zipper gene from Craterostigma plantagineum regulates abscisic acid responsive gene expression and physiological responses
Genetics / Plant Biology / Transcription Regulation / Seed germination / Transcription Factors / Plant Molecular Biology / Gene expression / Desiccation Tolerance / Protein Structure and Function / Protein-DNA interaction / Sequence alignment / Organization Development / Abscisic Acid / Transcription Factor / Physiological Response / Germination / Seeds / Adaptive Response / Amino Acid Sequence / Expression analysis / PLANT PROTEINS / Transgenic plant / Biochemistry and cell biology / Gene expression profiling / Plant Leaves / Molecular Sequence Data / Plant Molecular Biology / Gene expression / Desiccation Tolerance / Protein Structure and Function / Protein-DNA interaction / Sequence alignment / Organization Development / Abscisic Acid / Transcription Factor / Physiological Response / Germination / Seeds / Adaptive Response / Amino Acid Sequence / Expression analysis / PLANT PROTEINS / Transgenic plant / Biochemistry and cell biology / Gene expression profiling / Plant Leaves / Molecular Sequence Data
A homeodomain leucine zipper gene from Craterostigma plantagineum regulates abscisic acid responsive gene expression and physiological responses
Genetics / Plant Biology / Transcription Regulation / Seed germination / Transcription Factors / Plant Molecular Biology / Gene expression / Desiccation Tolerance / Protein Structure and Function / Protein-DNA interaction / Sequence alignment / Organization Development / Abscisic Acid / Transcription Factor / Physiological Response / Germination / Seeds / Adaptive Response / Amino Acid Sequence / Expression analysis / PLANT PROTEINS / Transgenic plant / Biochemistry and cell biology / Gene expression profiling / Plant Leaves / Molecular Sequence Data / Plant Molecular Biology / Gene expression / Desiccation Tolerance / Protein Structure and Function / Protein-DNA interaction / Sequence alignment / Organization Development / Abscisic Acid / Transcription Factor / Physiological Response / Germination / Seeds / Adaptive Response / Amino Acid Sequence / Expression analysis / PLANT PROTEINS / Transgenic plant / Biochemistry and cell biology / Gene expression profiling / Plant Leaves / Molecular Sequence Data
Aspartate Kinase 2. A Candidate Gene of a Quantitative Trait Locus Influencing Free Amino Acid Content in Maize Endosperm
Kinetics / Biological Sciences / Plant Physiology / Maize / Feedback / Threonine / Abscisic Acid / Enzyme / Amino Acids / Zea mays / Genotype / Seeds / Specific Activity / Methionine / Quantitative Trait Loci / Amino Acid Profile / Threonine / Abscisic Acid / Enzyme / Amino Acids / Zea mays / Genotype / Seeds / Specific Activity / Methionine / Quantitative Trait Loci / Amino Acid Profile
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