Effect of Endophytic fungi in Festuca arundinaceae proteome pattern changes under drought stress

Authors

Abstract:

In this research, have been investigated the effects of endophytic fungi from Neotyphidum genius that has mandatory symbiosis with tall fescue (Festuca arundinacea schreb) and drought stress on changes in the protein profile of the tall fescue species. This process requires changes in the gene and protein expression profiles. Since these proteins have not been reported for tall fescue species.  this study will be important for the drought crisis. The high- tall fescue genotypes containing endophyte were prepared from a collection of the Northwest and West Research Institute of Agricultural Biotechnology in Tabriz. After 20 days that plants remain in pots, water treatments containing favorable conditions or controls (100% field capacity), 14 days drought stress (25% FC) and 14 days after discharge from recovery again were imposed in the greenhouse were applied based on testing soil, after 20 days from the establishment of plants in pots. The experiment was conducted as factorial in a completely randomized design with two replications. After sampling, by using Proteomics, the  proteins that changed, were determined by 2D-PLATENIUM software and separated by mass spectrometry for analysis. The results of mass spectrometry at the University of Southern Denmark showed that tensions in tall festuca plants under the conditions of drought stress in E + plants compared to E- expression proteins involved in the Calvin cycle, and three types of proteins were more involved are: Ribulose -1 and 5- Bisphosphate carboxylase (Rubisco enzymes) (A13 spot), Glyceral aldehyde-3-phosphate dehydrogenase (C7 spot), and Sedoheptolose-1 , 7- Bisphosphatase (A1 spot). GA3P and S1.7BP respectively expressed 0.183 and 0.25,in terms of stress in plants infected with endophytic fungi (E+) compared to control conditions, but 2.4 in plants without endophyte (E-) than control conditions .On the other hand, RUBP 61.2 time increase expression in terms of drought stress compared to control in E + plants, and decrease 0.7 in E- plants. In general, drought stress in plants affects the photosynthesis system, which reduces the potential of the Calvin cycle in the plant, but this reduction is compensated by plant coexistence with mycorrhizal organisms such as endophyte and rhizobium.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

Evaluation of Leaf Proteome in Wheat Genotypes Under Drought Stress

Drought stress in plants, the change (increase or decrease) in the production of plant proteins. Proteomics in recent years one of the most powerful tools that help us to study the changes in protein In order to investigate the proteome of wheat leaves in response to terminal drought, two genotypes susceptible and resistant wheat genotypes were evaluated under irrigated (non-stress) and rain-fe...

full text

Evaluation of Leaf Proteome in Wheat Genotypes Under Drought Stress

Drought stress in plants, the change (increase or decrease) in the production of plant proteins. Proteomics in recent years one of the most powerful tools that help us to study the changes in protein In order to investigate the proteome of wheat leaves in response to terminal drought, two genotypes susceptible and resistant wheat genotypes were evaluated under irrigated (non-stress) and rain-fe...

full text

Study on protein Changes in wheat under drought stress

A study was performed to study the effect of drought stress on protein changes of five wheat genotypes. Wheat genotypes were planted in early November, growing season of 2008-2009. The experiment was carried out in a factotial design with three replications. Two drought stress levels (irrigated and Non irrigated) and five genotype of wheat (F103-L-1-12//PONY/OPATA, F1.158/FDL//BLO/3/SH14414/CRO...

full text

Study on protein Changes in wheat under drought stress

A study was performed to study the effect of drought stress on protein changes of five wheat genotypes. Wheat genotypes were planted in early November, growing season of 2008-2009. The experiment was carried out in a factotial design with three replications. Two drought stress levels (irrigated and Non irrigated) and five genotype of wheat (F103-L-1-12//PONY/OPATA, F1.158/FDL//BLO/3/SH14414/CRO...

full text

evaluation of leaf proteome in wheat genotypes under drought stress

drought stress in plants, the change (increase or decrease) in the production of plant proteins. proteomics in recent years one of the most powerful tools that help us to study the changes in protein in order to investigate the proteome of wheat leaves in response to terminal drought, two genotypes susceptible and resistant wheat genotypes were evaluated under irrigated (non-stress) and rain-fe...

full text

Effect of Trichoderma Isolates on Morphophysiological Changes of Polianthes Tuberose under Drought Stress

In order to evaluate the effect of different Trichoderma isolates on reducing the effects of drought stress on Polianthes tuberose, two factorial experiments were carried out based on completely randomized design with three replications. The first factor in the first experiment was bi isolate, and in the second experiment was isolate 65 of Trichoderma harzianum, each at three levels (0, 10, 20%...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 8  issue 29

pages  75- 84

publication date 2019-05

By following a journal you will be notified via email when a new issue of this journal is published.

Keywords

No Keywords

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023