"Responses of Transgenic Tobacco Plants with Increased Proline Content to Drought and/or Heat Stress"
written by Jana Pospisilova, Daniel Haisel, Radomira Vankova,
published by American Journal of Plant Sciences, Vol.2 No.3, 2011
has been cited by the following article(s):
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[4] Proline accumulation induces the production of total phenolics in transgenic tobacco plants under water deficit without increasing the G6PDH activity
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[5] Approaches in modulating proline metabolism in plants for salt and drought stress tolerance: Phytohormones, mineral nutrients and transgenics
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[8] Kusdianti, DS Diningrat, Iriawati and SN Widiyanto
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[10] Cloning and sequence analysis of the Δ1-pyrroline-5-carboxylate synthase gene (MP5CS) from mulberry (Morus alba) and patterns of MP5CS gene expression under abiotic stress conditions
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[11] Osmotic Adjustment and Plant Adaptation to Drought Stress
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[12] Характеристика трансгенних рослин соняшника (Helianthus annuus L.) з дволанцюговим РНК супрессором гена проліндегідрогенази
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[13] Proline accumulation and osmotic stress: an overview of P5CS gene in plants
Journal of Plant Molecular Breeding, 2015
[14] Effects of high proline accumulation on chloroplast and mitochondrial ultrastructure and on osmotic adjustment in tobacco plants
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[15] Salicylic acid supplementation improves photosynthesis and growth in mustard through changes in proline accumulation and ethylene formation under drought stress
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[16] Engineering crop plants against abiotic stress: Current achievements and prospects
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[17] 石蒜 LrP5CS 基因的克隆与表达特性分析
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[18] Efeitos do alto acúmulo de prolina na ultraestrutura de cloroplastos e mitocôndrias e no ajustamento osmótico de plantas de tabaco
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[19] Genetic regulation of maize and sorghum under abiotic stress
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[20] Salicylic acid supplementation improves photosynthesis and growth in mustard through changes in proline accumulation and ethylene formation under …
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[21] Isolation and characterization of a Δ1-pyrroline-5-carboxylate synthetase (NtP5CS) from Nitraria tangutorum Bobr. and functional comparison with its Arabidopsis …
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[22] The role of carbohydrates in plant resistance to abiotic stresses
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[23] Modulation of proline: implications in plant stress tolerance and development
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[24] 5 Modulation of Proline: Implications in Plant Stress Tolerance and Development
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[25] ENGINEERING CROPS PLANTS AGAINST ABIOTIC STRESS CURRENT ACHIEVEMENTS AND FUTURE PROSPECTS
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[26] Isolation and characterization of a Δ1-pyrroline-5-carboxylate synthetase (NtP5CS) from Nitraria tangutorum Bobr. and functional comparison with its Arabidopsis homologue
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[27] Photosynthetic Differences in Mustard Genotypes under Salinity Stress: Significance of Proline Metabolism
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[28] Genetic engineering to improve plant performance under drought: physiological evaluation of achievements, limitations, and possibilities
Journal of experimental botany, 2013
[29] The accumulation of endogenous proline induces changes in gene expression of several antioxidant enzymes in leaves of transgenic Swingle citrumelo
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[30] Генетическая инженерия с использованием генов метаболизма L-пролина для повышения осмотолерантности растений
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[31] Relative distribution of free amino acids in buckwheat
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[32] АКТИВНОСТЬ ФОТОСИНТЕТИЧЕСКОГО АППАРАТА И СУПЕРОКСИДДИСМУТАЗЫ В ЛИСТЬЯХ SOLANUM LICOPERSICUM С ВВЕДЕННЫМ …
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[33] Genetic architecture of stay-green in maize
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[34] Proline Accumulation Role on Drought-Induced Rice Genotypes
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[35] 建立水稻種原 (Oryza sativa L.) 耐旱性之幼苗篩選方法
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[36] Establishment of Rice (Oryza sativa L.) Seedling Screening Methods for Drought Tolerance
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