Your search keyword '"HUIJUN GUO"' showing total 8 results

1. Chlorogenic acid alleviates IPEC-J2 pyroptosis induced by deoxynivalenol by inhibiting activation of the NF-κB/NLRP3/caspase-1 pathway

Author

Yanmei Xue, Fuchang Li, Rui Li, Xinru Zhang, Huijun Guo, and Chunyang Wang

Subjects

Chlorogenic acid, Deoxynivalenol, IPEC-J2 cells, Pyroptosis, Signaling pathway, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Deoxynivalenol (DON) is a mycotoxin that severely pollutes feed ingredients, and methods for reducing DON toxicity have become a significant research direction. Chlorogenic acid (CGA) is an active polyphenol found in some plants, which has anti-inflammatory and antioxidant properties and a protective effect on animal intestinal health. The effects of CGA on DON-induced pyroptosis in the intestinal porcine epithelial cell line-J2 (IPEC-J2) and its potential mechanism were explored in this study. Results IPEC-J2 cells viability and membrane integrity were inversely correlated with DON concentration. Compared to those in the group treated with DON alone at 2,500 ng/mL, pretreatment with 80 μmol/L CGA for 4 h significantly improved cell viability (P

Published

2024

2. Evaluation of altered starch mutants and identification of candidate genes responsible for starch variation in wheat

Author

Ahsan Irshad, Huijun Guo, Hongchun Xiong, Yongdun Xie, Hua Jin, Jiayu Gu, Chaojie Wang, Liqun Yu, Xianghui Wen, Shirong Zhao, and Luxiang Liu

Subjects

Functional genes, Mutation, Quality traits, Starch, Wheat, Botany, QK1-989

Abstract

Abstract Background Induction of mutation through chemical mutagenesis is a novel approach for preparing diverse germplasm. Introduction of functional alleles in the starch biosynthetic genes help in the improvement of the quality and yield of cereals. Results In the present study, a set of 350 stable mutant lines were used to evaluate dynamic variation of the total starch contents. A megazyme kits were used for measuring the total starch content, resistant starch, amylose, and amylopectin content. Analysis of variance showed significant variation (p

Published

2023

3. Genetic mapping and identification of Rht8-B1 that regulates plant height in wheat

Author

Chunyun Zhou, Hongchun Xiong, Meiyu Fu, Huijun Guo, Linshu Zhao, Yongdun Xie, Jiayu Gu, Shirong Zhao, Yuping Ding, Yuting Li, Xuejun Li, and Luxiang Liu

Subjects

Wheat, Plant height, Rht8-B1, QTL mapping, Spike compactness, Botany, QK1-989

Abstract

Abstract Background Plant height (PH) and spike compactness (SC) are important agronomic traits that affect yield improvement in wheat crops. The identification of the loci or genes responsible for these traits is thus of great importance for marker-assisted selection in wheat breeding. Results In this study, we used a recombinant inbred line (RIL) population with 139 lines derived from a cross between the mutant Rht8-2 and the local wheat variety NongDa5181 (ND5181) to construct a high-density genetic linkage map by applying the Wheat 40 K Panel. We identified seven stable QTLs for PH (three) and SC (four) in two environments using the RIL population, and found that Rht8-B1 is the causal gene of qPH2B.1 by further genetic mapping, gene cloning and gene editing analyses. Our results also showed that two natural variants from GC to TT in the coding region of Rht8-B1 resulted in an amino acid change from G (ND5181) to V (Rht8-2) at the 175th position, reducing PH by 3.6%~6.2% in the RIL population. Moreover, gene editing analysis suggested that the height of T2 generation in Rht8-B1 edited plants was reduced by 5.6%, and that the impact of Rht8-B1 on PH was significantly lower than Rht8-D1. Additionally, analysis of the distribution of Rht8-B1 in various wheat resources suggested that the Rht8-B1b allele has not been widely utilized in modern wheat breeding. Conclusions The combination of Rht8-B1b with other favorable Rht genes might be an alternative approach for developing lodging-resistant crops. Our study provides important information for marker-assisted selection in wheat breeding.

Published

2023

4. Identification of the vernalization gene VRN-B1 responsible for heading date variation by QTL mapping using a RIL population in wheat

Author

Yuting Li, Hongchun Xiong, Huijun Guo, Chunyun Zhou, Yongdun Xie, Linshu Zhao, Jiayu Gu, Shirong Zhao, Yuping Ding, and Luxiang Liu

Subjects

Heading time, Wheat, BSR-Seq, Vrn-B1, Genetic mapping, Metabolic pathways, Botany, QK1-989

Abstract

Abstract Background Heading time is one of the most important agronomic traits in wheat, as it largely affects both adaptation to different agro-ecological conditions and yield potential. Identification of genes underlying the regulation of wheat heading and the development of diagnostic markers could facilitate our understanding of genetic control of this process. Results In this study, we developed 400 recombinant inbred lines (RILs) by crossing a γ-ray-induced early heading mutant (eh1) with the late heading cultivar, Lunxuan987. Bulked Segregant Analysis (BSA) of both RNA and DNA pools consisting of various RILs detected a quantitative trait loci (QTL) for heading date located on chromosomes 5B, and further genetic linkage analysis limited the QTL to a 3.31 cM region. We then identified a large deletion in the first intron of the vernalization gene VRN-B1 in eh1, and showed it was associated with the heading phenotype in the RIL population. However, it is not the mutation loci that resulted in early heading phonotype in the mutant compared to that of wildtype. RNA-seq analysis suggested that Vrn-B3 and several newly discovered genes, including beta-amylase 1 (BMY1) and anther-specific protein (RTS), were highly expressed in both the mutant and early heading pool with the dominant Vrn-B1 genotype compared to that of Lunxuan987 and late heading pool. Enrichment analysis of differentially expressed genes (DEGs) identified several key pathways previously reported to be associated with flowering, including fatty acid elongation, starch and sucrose metabolism, and flavonoid biosynthesis. Conclusion The development of new markers for Vrn-B1 in this study supplies an alternative solution for marker-assisted breeding to optimize heading time in wheat and the DEGs analysis provides basic information for VRN-B1 regulation study.

Published

2020

5. Functional mutation allele mining of plant architecture and yield-related agronomic traits and characterization of their effects in wheat

Author

Huijun Guo, Hongchun Xiong, Yongdun Xie, Linshu Zhao, Jiayu Gu, Shirong Zhao, Yuping Ding, and Luxiang Liu

Subjects

Wheat, Mutant resource, Mutation allele, Favorable allele, Plant architecture, Yield-related traits, Genetics, QH426-470

Abstract

Abstract Background Wheat mutant resources with phenotypic variation have been developed in recent years. These mutants might carry favorable mutation alleles, which have the potential to be utilized in the breeding process. Plant architecture and yield-related features are important agronomic traits for wheat breeders and mining favorable alleles of these traits will improve wheat characteristics. Results Here we used 190 wheat phenotypic mutants as material and by analyzing their SNP variation and phenotypic data, mutation alleles for plant architecture and yield-related traits were identified, and the genetic effects of these alleles were evaluated. In total, 32 mutation alleles, including three pleiotropic alleles, significantly associated with agronomic traits were identified from the 190 wheat mutant lines. The SNPs were distributed on 12 chromosomes and were associated with plant height (PH), tiller number, flag leaf angle (FLA), thousand grain weight (TGW), and other yield-related traits. Further phenotypic analysis of multiple lines carrying the same mutant allele was performed to determine the effect of the allele on the traits of interest. PH-associated SNPs on chromosomes 2BL, 3BS, 3DL, and 5DL might show additive effects, reducing PH by 10.0 cm to 31.3 cm compared with wild type, which means that these alleles may be favorable for wheat improvement. Only unfavorable mutation alleles that reduced TGW and tiller number were identified. A region on chromosome 5DL with mutation alleles for PH and TGW contained several long ncRNAs, and their sequences shared more than 90% identity with cytokinin oxidase/dehydrogenase genes. Some of the mutation alleles we mined were colocalized with previously reported QTLs or genes while others were novel; these novel alleles could also result in phenotypic variation. Conclusion Our results demonstrate that favorable mutation alleles are present in mutant resources, and the region between 409.5 to 419.8 Mb on chromosome 5DL affects wheat plant height and thousand grain weight.

Published

2019

6. Novel mutant alleles of the starch synthesis gene TaSSIVb-D result in the reduction of starch granule number per chloroplast in wheat

Author

Huijun Guo, Yunchuan Liu, Xiao Li, Zhihui Yan, Yongdun Xie, Hongchun Xiong, Linshu Zhao, Jiayu Gu, Shirong Zhao, and Luxiang Liu

Subjects

Wheat, TILLING, Mutant, TaSSIVb-D, Gene expression, Starch granule, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Transient starch provides carbon and energy for plant growth, and its synthesis is regulated by the joint action of a series of enzymes. Starch synthesis IV (SSIV) is one of the important starch synthase isoforms, but its impact on wheat starch synthesis has not yet been reported due to the lack of mutant lines. Results Using the TILLING approach, we identified 54 mutations in the wheat gene TaSSIVb-D, with a mutation density of 1/165 Kb. Among these, three missense mutations and one nonsense mutation were predicted to have severe impacts on protein function. In the mutants, TaSSIVb-D was significantly down-regulated without compensatory increases in the homoeologous genes TaSSIVb-A and TaSSIVb-B. Altered expression of TaSSIVb-D affected granule number per chloroplast; compared with wild type, the number of chloroplasts containing 0–2 granules was significantly increased, while the number containing 3–4 granules was decreased. Photosynthesis was affected accordingly; the maximum quantum yield and yield of PSII were significantly reduced in the nonsense mutant at the heading stage. Conclusions These results indicate that TaSSIVb-D plays an important role in the formation of transient starch granules in wheat, which in turn impact the efficiency of photosynthesis. The mutagenized population created in this study allows the efficient identification of novel alleles of target genes and could be used as a resource for wheat functional genomics.

Published

2017

7. Regulatory effects of chicken TRIM25 on the replication of ALV-A and the MDA5-mediated type I interferon response

Author

Zhou Jinrun, Yue Zhao, Hongmei Li, Jun-hong Liu, Ziqiang Cheng, Yan-meng Hou, and Huijun Guo

Subjects

0301 basic medicine, Small interfering RNA, Interferon-Induced Helicase, IFIH1, animal structures, type I interferon response, 040301 veterinary sciences, Ubiquitin-Protein Ligases, [SDV]Life Sciences [q-bio], Biology, Virus Replication, Virus, Cell Line, Tripartite Motif Proteins, 0403 veterinary science, 03 medical and health sciences, Plasmid, Antigen, Interferon, subgroup A of avian leukosis virus, medicine, Animals, RNA, Messenger, Gene, Gene knockdown, lcsh:Veterinary medicine, Avian Leukosis Virus, General Veterinary, antiviral bioactivities, Interferon-beta, 04 agricultural and veterinary sciences, Transfection, Molecular biology, chicken TRIM25, Up-Regulation, 030104 developmental biology, Gene Expression Regulation, Gene Knockdown Techniques, embryonic structures, lcsh:SF600-1100, Chickens, Research Article, Transcription Factors, medicine.drug

Abstract

This study focuses on the immunoregulatory effects of chicken TRIM25 on the replication of subgroup A of avian leukosis virus (ALV-A) and the MDA5-mediated type I interferon response. The ALV-A-SDAU09C1 strain was inoculated into DF1 cells and 1-day-old SPF chickens, and the expression of TRIM25 was detected at different time points after inoculation. A recombinant overexpression plasmid containing the chicken TRIM25 gene (TRIM25-GFP) was constructed and transfected into DF1 cells to analyse the effects of the overexpression of chicken TRIM25 on the replication of ALV-A and the expression of MDA5, MAVS and IFN-β. A small interfering RNA targeting chicken TRIM25 (TRIM25-siRNA) was prepared and transfected into DF1 cells to assess the effects of the knockdown of chicken TRIM25 on the replication of ALV-A and the expression of MDA5, MAVS and IFN-β. The results showed that chicken TRIM25 was significantly upregulated at all time points both in ALV-A-infected cells and in ALV-A-infected chickens. Overexpression of chicken TRIM25 in DF1 cells dramatically decreased the antigenic titres of ALV-A in the cell supernatant and upregulated the relative expression of MDA5, MAVS and IFN-β induced by ALV-A or by poly(I:C); in contrast, knockdown of chicken TRIM25 significantly increased the antigenic titres of ALV-A and downregulated the relative expression of MDA5, MAVS and IFN-β. It can be concluded that chicken TRIM25 can inhibit the replication of ALV-A and upregulate the MDA5 receptor-mediated type I interferon response in chickens. This study can help improve the understanding of the antiviral activities of chicken TRIM25 and enrich the knowledge of antiviral responses in chickens.

Published

2020

8. Functional mutation allele mining of plant architecture and yield-related agronomic traits and characterization of their effects in wheat

Author

Hongchun Xiong, Luxiang Liu, Huijun Guo, Linshu Zhao, Yuping Ding, Shirong Zhao, Jiayu Gu, and Yongdun Xie

Subjects

0106 biological sciences, 0301 basic medicine, lcsh:QH426-470, Mutant, Quantitative Trait Loci, Single-nucleotide polymorphism, Biology, 01 natural sciences, Polymorphism, Single Nucleotide, Chromosomes, Plant, 03 medical and health sciences, Gene Frequency, Pleiotropy, Genetics, Allele, Yield-related traits, Gene, Genetics (clinical), Genetic Association Studies, Triticum, Favorable allele, Plant architecture, Wild type, Chromosome Mapping, food and beverages, Mutant resource, Plant Breeding, Mutation allele, lcsh:Genetics, 030104 developmental biology, Phenotype, Genetic marker, Mutation (genetic algorithm), Mutation, Wheat, 010606 plant biology & botany, Research Article

Abstract

Background Wheat mutant resources with phenotypic variation have been developed in recent years. These mutants might carry favorable mutation alleles, which have the potential to be utilized in the breeding process. Plant architecture and yield-related features are important agronomic traits for wheat breeders and mining favorable alleles of these traits will improve wheat characteristics. Results Here we used 190 wheat phenotypic mutants as material and by analyzing their SNP variation and phenotypic data, mutation alleles for plant architecture and yield-related traits were identified, and the genetic effects of these alleles were evaluated. In total, 32 mutation alleles, including three pleiotropic alleles, significantly associated with agronomic traits were identified from the 190 wheat mutant lines. The SNPs were distributed on 12 chromosomes and were associated with plant height (PH), tiller number, flag leaf angle (FLA), thousand grain weight (TGW), and other yield-related traits. Further phenotypic analysis of multiple lines carrying the same mutant allele was performed to determine the effect of the allele on the traits of interest. PH-associated SNPs on chromosomes 2BL, 3BS, 3DL, and 5DL might show additive effects, reducing PH by 10.0 cm to 31.3 cm compared with wild type, which means that these alleles may be favorable for wheat improvement. Only unfavorable mutation alleles that reduced TGW and tiller number were identified. A region on chromosome 5DL with mutation alleles for PH and TGW contained several long ncRNAs, and their sequences shared more than 90% identity with cytokinin oxidase/dehydrogenase genes. Some of the mutation alleles we mined were colocalized with previously reported QTLs or genes while others were novel; these novel alleles could also result in phenotypic variation. Conclusion Our results demonstrate that favorable mutation alleles are present in mutant resources, and the region between 409.5 to 419.8 Mb on chromosome 5DL affects wheat plant height and thousand grain weight.

Published

2019