Contribution of CaBPM4, a BTB Domain–Containing Gene, to the Response of Pepper to Phytophthora capsici Infection and Abiotic Stresses

He, Yu-Mei; Liu, Keke; Zhang, Huai-Xia; Cheng, Guo-Xin; Ali, Muhammad; Haq, Saeed Ul; Wei, Aimin; Gong, Zhen-Hui

doi:10.3390/agronomy9080417

Cited by 16 publications

(14 citation statements)

References 58 publications

(79 reference statements)

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Section: Resultsmentioning

confidence: 99%

“…Generally, BTB domain participates in plant responses against biotic and abiotic stresses. He et al, [37] reported down regulation of BTB gene under Phytophthora capsici infection. Upregulation of this gene in resistant genotype may have role in defence against F. fujikuroi.Results of the selected DEGs showed that the qRT-PCR was consistent with the RNA-Seq results showing similar expression pattern of up-and down-regulated genes by using both, RNA-Seq and qRT-PCR, analyses.…”

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Transcriptomic analysis of bakanae disease resistant and susceptible rice genotypes in response to infection by Fusarium fujikuroi

Bashyal

Rawat²,

Parmar³

et al. 2022

Mol Biol Rep

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Background Fusarium fujikuroi causing bakanae is one of the most signi cant pathogen of rice and much responsible for yield losses thereby emerging as a major risk to food security. Methods In the present study transcriptomic analysis was conducted between two contrasting resistant (C101A51) and susceptible (Rasi) genotypes of rice with the combinations of C101A51 control (CC) vs C101A51 inoculated (CI); Rasi control (RC) vs Rasi inoculated (RI) and C101A51 inoculated (CI) vs Rasi inoculated (RI). ResultsIn CC vs CI commonly expressed genes were 12,764. Out of them 567 (4%) were signi cantly upregulated and 1399 (9%) genes were down regulated. For the RC vs RI 14, 333 (79%) genes were commonly expressed. For CI vs RI 13,662 (72%) genes commonly expressed. Cysteine proteinase inhibitor 10, disease resistance protein TAO1-like, oleosin 16 kDa-like, pathogenesis-related protein (PR1), (PR4), BTB/POZ and MATH domain-containing protein 5-like, alpha-amylase isozyme 3D-like (LOC4345814), were upregulated in resistant genotype C101A51.Whereas, GDSL esterase/lipase At5g33370, serine glyoxylate aminotransferase, CASP-like protein 2C1, WAT1related protein At4g08290, Cytoplasmic linker associated proteins, xyloglucan endotransglucosylase/hydrolase protein and β-D xylosidase 7 were upregulated in susceptible genotype Rasi. Gene ontology analysis showed functions related to defence response (GO:0006952), regulation of plant hypersensitive type response (GO:0010363), Potassium ion transmembrane activity (GO:0015079), chloroplast (GO:0009507), response to wounding (GO:0009611), xylan biosynthetic process (GO:0045492) were upregulated in resistant genotype C101A51 under inoculated conditions. Conclusions Real time PCR based validation of the selected DEGs showed that the qRT-PCR was consistent with the RNA-Seq results. This is the rst transcriptomic study against bakanae disease of rice in Indian genotypes and will be helpful for the development of bakanae management strategies.phenotype. BTB/POZ and MATH domain proteins are upregulated in resistant genotype C101A51. Generally, BTB domain participates in plant responses against biotic and abiotic stresses. He et al, [37] reported down regulation of BTB gene under Phytophthora capsici infection. Upregulation of this gene in resistant genotype may have role in defence against F. fujikuroi.Results of the selected DEGs showed that the qRT-PCR was consistent with the RNA-Seq results showing similar expression pattern of up-and down-regulated genes by using both, RNA-Seq and qRT-PCR, analyses. ConclusionsThe results showed that general expression of glucanases, peroxidases in both, resistant and susceptible, genotypes could represent the basic defence mechanism of rice against F. fujikuroi. What was found strikingly different in resistant genotype is the modulation of WRKY transcriptional factors, Cysteine proteinase inhibitor 10 (LOC4335551), disease resistance protein TAO1-like (LOC112939055), oleosin 16 kDa-like (LOC4336570), pathogenesis-related protein (PR1), pathogenesis-related...

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

Transcriptomic analysis of bakanae disease resistant and susceptible rice genotypes in response to infection by Fusarium fujikuroi

Bashyal

Rawat²,

Parmar³

et al. 2022

Mol Biol Rep

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“…For example, the Ankyrin subfamily can respond to drought, salt stress, and ABA treatment, and PfBTB3/4/31/32/27/52/61 in P. fortunei belongs to the same subfamily, so we infer that these genes may be involved in similar plant stress tolerance processes. In addition, members of the MATH subfamily have been reported to be involved in plant resistance to biotic stress processes, such as CaBPM4 ( CaBTB51 ) of the MATH subfamily of pepper, which is highly regulated under the Phytophthora capsici infection [ 36 ]. These studies suggest that within the different subfamilies of BTB, each subfamily member is involved in plant-specific biological processes.…”

Section: Discussionmentioning

confidence: 99%

Bioinformatic Analysis of the BTB Gene Family in Paulownia fortunei and Functional Characterization in Response to Abiotic and Biotic Stresses

Zhu,

Fan,

et al. 2023

Plants

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To learn about the gene structure, phylogenetic evolution, and function under biotic and abiotic stresses of BTB (Bric-a-Brac/Tramtrack/Broad Complex) genes in Paulownia fortunei, a whole-genome sequence evaluation was carried out, and a total of 62 PfBTB genes were identified. The phylogenetic analysis showed that PfBTB proteins are divided into eight groups, and these proteins are highly conserved. PfBTB genes were unevenly distributed on 17 chromosomes. The colinearity analysis found that fragment replication and tandem replication are the main modes of gene amplification in the PfBTB family. The analysis of cis-acting elements suggests that PfBTB genes may be involved in a variety of biological processes. The transcriptomic analysis results showed that PfBTB3/12/14/16/19/36/44 responded to Paulownia witches’ broom (PaWB), while PfBTB1/4/17/43 responded to drought stress, and the RT-qPCR results further support the reliability of transcriptome data. In addition, the association analysis between miRNA and transcriptome revealed a 91-pair targeting relationship between miRNAs and PfBTBs. In conclusion, the BTB genes in Paulownia are systematically identified in this research. This work provides useful knowledge to more fully appreciate the potential functions of these genes and their possible roles in the occurrence of PaWB and in response to stress.

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“…Ubiquitin ligases are frequently implicated under heat stress in rice ( Mittal et al, 2012 ; Zhang et al, 2012 ; González-Schain et al, 2016 ). Broad-complex Tramtrack and the Bric-a-brac (BTB) domain/POX virus and Zinc finger (POZ) (BTB/POX) domain-containing proteins (chromosome 6) are implicated in transcriptional regulation and protein degradation ( He et al, 2019 ). These BPM proteins are reported to negatively regulate the degradation of DREB2A and contribute to plant thermo-tolerance ( Morimoto et al, 2017 ).…”

Section: Discussionmentioning

confidence: 99%

Genome-Wide Association Mapping Reveals Novel Putative Gene Candidates Governing Reproductive Stage Heat Stress Tolerance in Rice

et al. 2022

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Temperature rise predicted for the future will severely affect rice productivity because the crop is highly sensitive to heat stress at the reproductive stage. Breeding tolerant varieties is an economically viable option to combat heat stress, for which the knowledge of target genomic regions associated with the reproductive stage heat stress tolerance (RSHT) is essential. A set of 192 rice genotypes of diverse origins were evaluated under natural field conditions through staggered sowings for RSHT using two surrogate traits, spikelet fertility and grain yield, which showed significant reduction under heat stress. These genotypes were genotyped using a 50 k SNP array, and the association analysis identified 10 quantitative trait nucleotides (QTNs) for grain yield, of which one QTN (qHTGY8.1) was consistent across the different models used. Only two out of 10 MTAs coincided with the previously reported QTLs, making them novel. A total of 22 QTNs were observed for spikelet fertility, among which qHTSF5.1 was consistently found across three models. Of the QTNs identified, seven coincided with previous reports, while the remaining QTNs were new. The genes near the QTNs were found associated with the protein–protein interaction, protein ubiquitination, stress signal transduction, and so forth, qualifying them to be putative for RSHT. An in silico expression analysis revealed the predominant expression of genes identified for spikelet fertility in reproductive organs. Further validation of the biological relevance of QTNs in conferring heat stress tolerance will enable their utilization in improving the reproductive stage heat stress tolerance in rice.

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Contribution of CaBPM4, a BTB Domain–Containing Gene, to the Response of Pepper to Phytophthora capsici Infection and Abiotic Stresses

Cited by 16 publications

References 58 publications

Transcriptomic analysis of bakanae disease resistant and susceptible rice genotypes in response to infection by Fusarium fujikuroi

Transcriptomic analysis of bakanae disease resistant and susceptible rice genotypes in response to infection by Fusarium fujikuroi

Bioinformatic Analysis of the BTB Gene Family in Paulownia fortunei and Functional Characterization in Response to Abiotic and Biotic Stresses

Genome-Wide Association Mapping Reveals Novel Putative Gene Candidates Governing Reproductive Stage Heat Stress Tolerance in Rice

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