Linking plant functional genes to rhizosphere microbes: a review
Q Liu, L Cheng, H Nian, J Jin… - Plant biotechnology …, 2023 - Wiley Online Library
The importance of rhizomicrobiome in plant development, nutrition acquisition and stress
tolerance is unquestionable. Relevant plant genes corresponding to the above functions …
tolerance is unquestionable. Relevant plant genes corresponding to the above functions …
Genome-wide identification and analysis of WRKY gene family in maize provide insights into regulatory network in response to abiotic stresses
W Hu, Q Ren, Y Chen, G Xu, Y Qian - BMC plant biology, 2021 - Springer
Background The WRKY transcription factor family plays significant roles in biotic and abiotic
stress responses, which has been associated with various biological processes in higher …
stress responses, which has been associated with various biological processes in higher …
Genome-wide identification and comprehensive analysis of WRKY transcription factor family in safflower during drought stress
X Song, X Hou, Y Zeng, D Jia, Q Li, Y Gu, H Miao - Scientific Reports, 2023 - nature.com
The WRKY family is an important family of transcription factors in plant development and
stress response. Currently, there are few reports on the WRKY gene family in safflower …
stress response. Currently, there are few reports on the WRKY gene family in safflower …
Exploring the connectivity between rhizosphere microbiomes and the plant genes: A way forward for sustainable increase in primary productivity
The plant genome and its microbiome act together to enhance survival and promote host
growth under various stresses. Plant microbiome plays an important role in plant productivity …
growth under various stresses. Plant microbiome plays an important role in plant productivity …
Cellobiose elicits immunity in lettuce conferring resistance to Botrytis cinerea
J He, M Kong, Y Qian, M Gong, G Lv… - Journal of Experimental …, 2023 - academic.oup.com
Cellobiose is the primary product of cellulose hydrolysis and is expected to function as a
type of pathogen/damage-associated molecular pattern in evoking plant innate immunity. In …
type of pathogen/damage-associated molecular pattern in evoking plant innate immunity. In …
A group III WRKY transcription factor, SlWRKY52, positively regulates drought tolerance in tomato
C Jia, J Wang, B Guo, X Li, T Yang, H Yang, N Li… - Environmental and …, 2023 - Elsevier
Drought severely limits crop growth and development, reducing productivity. WRKY
transcription factors play crucial roles in regulating diverse aspects of plant growth …
transcription factors play crucial roles in regulating diverse aspects of plant growth …
Comparative transcriptome profiling and co-expression network analysis uncover the key genes associated with pear petal defense responses against Monilinia laxa …
MM Aci, PC Tsalgatidou, A Boutsika… - Frontiers in Plant …, 2024 - frontiersin.org
Pear brown rot and blossom blight caused by Monilinia laxa seriously affect pear production
worldwide. Here, we compared the transcriptomic profiles of petals after inoculation with M …
worldwide. Here, we compared the transcriptomic profiles of petals after inoculation with M …
Overexpression of ZmSRG7 Improves Drought and Salt Tolerance in Maize (Zea mays L.)
X Wei, X Fan, H Zhang, P Jiao, Z Jiang, X Lu… - International Journal of …, 2022 - mdpi.com
Osmotic stress caused by drought and high salinity is the key factor limiting plant growth.
However, its underlying molecular regulatory mechanism remains unclear. In this study, we …
However, its underlying molecular regulatory mechanism remains unclear. In this study, we …
Multiomic Data Integration in the Analysis of Drought-Responsive Mechanisms in Quercus ilex Seedlings
The integrated analysis of different omic layers can provide new knowledge not provided by
their individual analysis. This approach is also necessary to validate data and reveal post …
their individual analysis. This approach is also necessary to validate data and reveal post …
Comprehensive transcriptome analyses of Fusarium-infected root xylem tissues to decipher genes involved in chickpea wilt resistance
P Yadav, K Sharma, N Tiwari, G Saxena, MH Asif… - 3 Biotech, 2023 - Springer
Fusarium wilt is the most destructive soil-borne disease that poses a major threat to
chickpea production. To comprehensively understand the interaction between chickpea and …
chickpea production. To comprehensively understand the interaction between chickpea and …