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Question
- Oct 2021
There are several compounds like Salicylic acid and Jasmonic acid regulates plant responses to abiotic and biotic stresses as well as plant growth and development. Besides these two what other similar chemicals that can apply as a crop protection products in commercial agriculture?
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Question
- Jan 2014
What parameters should be considered.
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Question
- Jun 2018
I found that transgene expression driven by maize Ubi1 promoter was strongly induced in pathogen inoculated plants.
I would be grateful for any information or directions to the literature that expression driven by the maize UBi1 promoter is (or is not) induced by biotic stress.
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Question
- Jan 2013
How to choose a novel and key gene to enhance abiotic stress tolerance of plants by genetic engineering?
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Question
- Sep 2019
There are so much compounds released by plants upon biotic stress attack. This crosstalk can influence hormonal signaling or lead to suppression of plant immunity thus the occurence of plant death and other possible effects. Contributions to understand this whole idea are much welcome including collaborations for research.
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Question
- Aug 2024
Dear Dr.
We are writing to cordially invite you to contribute a chapter to the Genome Editing for Sustainable Agriculture Book Series Vol 2-11 Genome Editing for Mitigation of Abiotic and Biotic Stresses in Field Crops (Springer)”, which has been approved for publication by Springer.
Manuscripts are due on December 31, 2024. More information about the book is attached. Manuscript preparation guidelines will be provided after receiving your confirmation. No publication charges are applied. The corresponding author of each chapter will receive one complimentary printed copy and full access to the electronic book volume.
The series consists of 11 volumes, and you are welcome to choose any of them to contribute a chapter.
Please note that I have not yet updated the list, so you can select more than one chapter per volume.
Volume 1 has been completed
Volume 2 still has the following available chapters:
8 Plant genome editing without PAM by utilizing a CRISPR-SpRY toolkit
11 Advances in base editing for accurate and consistent genome editing in plants
13 An extensible vector toolkit and parts library for advanced engineering of plant genomes
20 Utilizing Gene Editing to Validate Functional Alleles of Genetic Resources for Crop Enhancement
Volume 3 still has the following available chapters:
1 Advancements in targeted DNA insertion in plants
3 Applications of multiplex genome editing in plants
5 Plant genome editing and the significance of off-target changes
6 Quantifying on and off-target plant genome editing
7 Quantitative assessment of genome editing
8 Deep learning improves the prediction of plant genome editing.
11 Plant breeding using orthogonal genome editing and transcriptional activation facilitated by CRISPR-Combo
12 Biosafety of plant genome editing
16 Monitoring footprints CRISPR-mediated genome editing
Volume 4 still has the following available chapters:
2 Genome editing translational research in plants
4 Genome editing patents worldwide
8 Genome editing in dicot: opportunities and challenges
9 Genome editing in monocot: opportunities and challenges
10 CRISPR-Cas technology for targeted gene replacement in plants
14 Risk of off-target plant genome editing
15 Using CRISPR-TSKO technology for tissue specific Plant genome editing
19 Commercialization of technology for genome editing
Volume 5 still has the following available chapters:
7 Genome editing for toxicity
8 Genome editing for flooding
9 Genome editing for radiation
10 Genome editing for natural disaster
Part II Biotic Stress
Volume 6 still has the following available chapters:
4 Genome editing for cold tolerance
7 Genome editing for toxicity
8 Genome editing for flooding
9 Genome editing for radiation
10 Genome editing for natural disaster
12 Genome editing for pollution
We look forward to your response at your earliest convenience within the next 5 days. Thank you.
Best regards,
Editors
Prof. Khaled F. M. Salem,
Department of Plant Biotechnology Genetic Engineering and Biotechnology Research Institute (GEBRI), University of Sadat City, Egypt
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Question
- Jan 2022
Is there any alternative options for plant nutrition management in order to mitigate the biotic and abiotic stresses on plants, which has no adverse effects on the environment and in general is safe, beneficial and friendly environment method??
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Question
- Jan 2015
e.g. high concentrations of SA or interaction with abiotic stress factors and promoting its negative effect? Many authors indicate that SA has a beneficial role in plant-pathogen interactions or exogenous application alleviate the negative effect of salt stress. I'm interested in different roles of SA, what happened with plants when overproduction of SA has taken place (except conversion to less toxic form)? Maybe you know some publications, I have problems with finding. I know that SA can cause oxidative stress, but maybe you can help me more in this area.
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Question
- Sep 2014
What is the probable mechanism of WRKY Transcription factor or the pathway in which wrky plays a major role against biotic stress. Please provide references.
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Question
- Mar 2014
Biotic stress such as viral infection.
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