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Main Authors: Bigham Soostani, Sarvenaz, Ranjbar, Monireh, Memarian, Amir, Afshari, Mozhdeh
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40753266/
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author Bigham Soostani, Sarvenaz
Ranjbar, Monireh
Memarian, Amir
Afshari, Mozhdeh
author_facet Bigham Soostani, Sarvenaz
Ranjbar, Monireh
Memarian, Amir
Afshari, Mozhdeh
Bigham Soostani, Sarvenaz
Ranjbar, Monireh
Memarian, Amir
Afshari, Mozhdeh
collection PubMed - marine biology
contents Chitosan pre- and post-treatment modulates molecular and physiological responses to salinity in Brassica Napus L. Bigham Soostani, Sarvenaz Ranjbar, Monireh Memarian, Amir Afshari, Mozhdeh Chitosan Brassica napus Salinity Gene Expression Regulation, Plant Proline Plant Proteins Salt Tolerance Sodium Chloride Salt Stress Salt stress affects plant growth and development to a great extent in establishing biochemical imbalances and inducing oxidative damage. The effort was undertaken to assess the relative effectiveness of chitosan pre- and post-treatments in relieving salt stress in Brassica napus L., a moderately salt-sensitive oilseed crop, with respect to the expression patterns of P5CS, PIP, and APX genes along with proline and protein accumulation. One factorial experiment was performed under controlled conditions, where the plants were exposed to varying NaCl concentrations (50, 100, 150, and 200 mM), following either the pre-treatment of chitosan (50 mg/L) or post-treatment of chitosan (50 and 100 mg/L). Gene expression analysis by means of qRT-PCR showed a significant (p
format Artículo científico
id pubmed_40753266
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Chitosan pre- and post-treatment modulates molecular and physiological responses to salinity in Brassica Napus L.
Bigham Soostani, Sarvenaz
Ranjbar, Monireh
Memarian, Amir
Afshari, Mozhdeh
Chitosan
Brassica napus
Salinity
Gene Expression Regulation, Plant
Proline
Plant Proteins
Salt Tolerance
Sodium Chloride
Salt Stress
Chitosan pre- and post-treatment modulates molecular and physiological responses to salinity in Brassica Napus L. Bigham Soostani, Sarvenaz Ranjbar, Monireh Memarian, Amir Afshari, Mozhdeh Chitosan Brassica napus Salinity Gene Expression Regulation, Plant Proline Plant Proteins Salt Tolerance Sodium Chloride Salt Stress Salt stress affects plant growth and development to a great extent in establishing biochemical imbalances and inducing oxidative damage. The effort was undertaken to assess the relative effectiveness of chitosan pre- and post-treatments in relieving salt stress in Brassica napus L., a moderately salt-sensitive oilseed crop, with respect to the expression patterns of P5CS, PIP, and APX genes along with proline and protein accumulation. One factorial experiment was performed under controlled conditions, where the plants were exposed to varying NaCl concentrations (50, 100, 150, and 200 mM), following either the pre-treatment of chitosan (50 mg/L) or post-treatment of chitosan (50 and 100 mg/L). Gene expression analysis by means of qRT-PCR showed a significant (p
title Chitosan pre- and post-treatment modulates molecular and physiological responses to salinity in Brassica Napus L.
topic Chitosan
Brassica napus
Salinity
Gene Expression Regulation, Plant
Proline
Plant Proteins
Salt Tolerance
Sodium Chloride
Salt Stress
url https://pubmed.ncbi.nlm.nih.gov/40753266/