马晖玲:修订间差异
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== '''性别''' == | |||
女 | |||
== '''工作单位''' == | |||
甘肃省干旱区生物多样性保护与生态修复重点实验室 | |||
== '''职称/职务''' == | |||
教授 | |||
== '''主要研究方向''' == | |||
1、草类植物种质资源及育种 2、草坪科学 | |||
== '''工作年限(从事该领域研究的起始时间)''' == | |||
25年(起始:2000) | |||
== '''论文著作''' == | == '''论文著作''' == | ||
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12. Anatomical changes to protect organelle integrity account for tolerance to alkali and salt stresses in Melilotus officinalis[J]. 2016, Plant and Soil. | 12. Anatomical changes to protect organelle integrity account for tolerance to alkali and salt stresses in Melilotus officinalis[J]. 2016, Plant and Soil. | ||
13. | 13. 镉胁迫对草地早熟禾生长与生理代谢的影响[J]. 2019, 核农学报. | ||
14. | 14. 转OvBAN/bar双价基因的紫花苜蓿对虫蚀及除草剂的耐受性分析[J]. 2019,草业学报. | ||
15. | 15. 匍匐翦股颖接种立枯丝核菌后基因表达变化的转录组学分析[J]. 2017, 中国农业科学. | ||
16. | 16. 低温对青海扁茎早熟禾活性氧代谢的影响和相关基因表达分析[J]. 2017, 草业学报. | ||
17. 2,3-丁二醇诱导下匍匐翦股颖叶片细胞结构变化及抗病相关性分析[J]. 2017, | 17. 2,3-丁二醇诱导下匍匐翦股颖叶片细胞结构变化及抗病相关性分析[J]. 2017, 草业学报. | ||
2025年9月23日 (二) 17:09的版本
性别
女
工作单位
甘肃省干旱区生物多样性保护与生态修复重点实验室
职称/职务
教授
主要研究方向
1、草类植物种质资源及育种 2、草坪科学
工作年限(从事该领域研究的起始时间)
25年(起始:2000)
论文著作
1. Transcriptional regulation and expression network responding to cadmium stress in a Cd-tolerant perennial grass Poa Pratensis [J]. 2020, Chemosphere.
2. Cadmium stress suppresses the tillering of perennial ryegrass and is associated with the transcriptional regulation of genes controlling axillary bud outgrowth[J]. 2021, Ecotoxicology and Environmental Safety.
3. Identification and Expression Analysis of the SWEET Gene Family from Poa pratensis Under Abiotic Stresses[J]. 2020, DNA and Cell Biology.
4. Overexpression of the OvBAN gene enhances the proanthocyanidin content in transgenic alfalfa (Medicago sativa L.)[J]. 2020, In Vitro Cellular & Developmental Biology-Plant.
5. Characterising the morphological characters and carbohydrate metabo-lism of oat culms and their association with lodging resistance[J]. 2019, Plant Biology.
6. The positive effects of exogenous 5-aminolevulinicacid on the chlorophyll biosynthesis, photosystem and calvin cycle of Kentuckybluegrass seedlings in response to osmotic stress[J]. 2018, Environmental and Experiment Botany.
7. Transcript Profiling and Gene Identification Involved in the Ethylene Signal Transduction Pathways of Creeping Bentgrass (Agrostis stolonifera) during ISR Response Induced by Butanediol[J]. 2018, Molecules.
8. 2, 3-Butanediol activated disease-resistance of creeping bentgrass by inducing phytohormone and antioxidant responses[J]. 2018, Plant Physiology and Biochemistry.
9. 5-Aminolevulinic acid modulates antioxidant defensesystems and mitigates drought-induced damage in Kentucky bluegrass seedlings[J]. 2017, Protoplasma.
10. Selection of Candidate ReferenceGenes for Gene Expression Analysisin Kentucky Bluegrass (Poa pratensis L.) under Abiotic Stress[J]. 2017, Frontiers in Plant Science.
11. Transcriptional Responses of Creeping Bentgrass to 2,3-Butanediol,a Bacterial Volatile Compound (BVC) Analogue[J]. 2017, Molecules.
12. Anatomical changes to protect organelle integrity account for tolerance to alkali and salt stresses in Melilotus officinalis[J]. 2016, Plant and Soil.
13. 镉胁迫对草地早熟禾生长与生理代谢的影响[J]. 2019, 核农学报.
14. 转OvBAN/bar双价基因的紫花苜蓿对虫蚀及除草剂的耐受性分析[J]. 2019,草业学报.
15. 匍匐翦股颖接种立枯丝核菌后基因表达变化的转录组学分析[J]. 2017, 中国农业科学.
16. 低温对青海扁茎早熟禾活性氧代谢的影响和相关基因表达分析[J]. 2017, 草业学报.
17. 2,3-丁二醇诱导下匍匐翦股颖叶片细胞结构变化及抗病相关性分析[J]. 2017, 草业学报.
