5.9
CiteScore
5.9
Impact Factor

2023 Vol. 50, No. 6

Display Method:
Review
Regulation of chloroplast protein degradation
Yang Sun, Jialong Li, Lixin Zhang, Rongcheng Lin
2023, 50(6): 375-384. doi: 10.1016/j.jgg.2023.02.010
Abstract (203) PDF (28)
Abstract:
Chloroplasts are unique organelles that not only provide sites for photosynthesis and many metabolic processes, but also are sensitive to various environmental stresses. Chloroplast proteins are encoded by genes from both nuclear and chloroplast genomes. During chloroplast development and responses to stresses, the robust protein quality control systems are essential for regulation of protein homeostasis and the integrity of chloroplast proteome. In this review, we summarize the regulatory mechanisms of chloroplast protein degradation refer to protease system, ubiquitin-proteasome system, and the chloroplast autophagy. These mechanisms symbiotically play a vital role in chloroplast development and photosynthesis under both normal or stress conditions.
Original research
Genomic and transcriptomic analyses enable the identification of important genes associated with subcutaneous fat deposition in Holstein cows
Hailiang Zhang, Siyuan Mi, Luiz F. Brito, Lirong Hu, Lei Wang, Longgang Ma, Qing Xu, Gang Guo, Ying Yu, Yachun Wang
2023, 50(6): 385-397. doi: 10.1016/j.jgg.2023.01.011
Abstract (258) PDF (34)
Abstract:
Subcutaneous fat deposition has many important roles in dairy cattle, including immunological defense and mechanical protection. The main objectives of this study are to identify key candidate genes regulating subcutaneous fat deposition in high-producing dairy cows by integrating genomic and transcriptomic datasets. A total of 1654 genotyped Holstein cows are used to perform a genome-wide association study (GWAS) aiming to identify genes associated with subcutaneous fat deposition. Subsequently, weighted gene co-expression network analyses (WGCNA) are conducted based on RNA-sequencing data of 34 cows and cow yield deviations of subcutaneous fat deposition. Lastly, differentially expressed (DE) mRNA, lncRNA, and differentially alternative splicing genes are obtained for 12 Holstein cows with extreme and divergent phenotypes for subcutaneous fat deposition. Forty-six protein-coding genes are identified as candidate genes regulating subcutaneous fat deposition in Holstein cattle based on GWAS. Eleven overlapping genes are identified based on the analyses of DE genes and WGCNA. Furthermore, the candidate genes identified based on GWAS, WGCNA, and analyses of DE genes are significantly enriched for pathways involved in metabolism, oxidative phosphorylation, thermogenesis, fatty acid degradation, and glycolysis/gluconeogenesis pathways. Integrating all findings, the NID2, STARD3, UFC1, DEDD, PPP1R1B, and USP21 genes are considered to be the most important candidate genes influencing subcutaneous fat deposition traits in Holstein cows. This study provides novel insights into the regulation mechanism underlying fat deposition in high-producing dairy cows, which will be useful when designing management and breeding strategies.
An atlas of expression quantitative trait loci of microRNAs in longissimus muscle of eight-way crossbred pigs
Liepeng Zhong, Min Zheng, Yizhong Huang, Tao Jiang, Bin Yang, Lusheng Huang, Junwu Ma
2023, 50(6): 398-409. doi: 10.1016/j.jgg.2023.02.007
Abstract (230) PDF (21)
Abstract:
MicroRNAs (miRNAs) are key regulators of myocyte development and traits, yet insight into the genetic basis of variation in miRNA expression is still limited. Here, we present a systematic analysis of expression quantitative trait loci (eQTL) for miRNA profiling in longissimus muscle of pigs from an eight-breed crossed heterogeneous population. By integrating the whole-genome sequencing and miRNAomics data, we map 54 cis- and 292 trans-eQTLs at high resolution that are associated with the expression of 54 and 92 miRNAs, respectively. Twenty-three trans-acting loci are identified to affect the expression of nine myomiRs (known muscle-specific miRNAs). MiRNAs in mammalian conserved miRNA clusters are found to be subjected to regulation by shared cis-eQTLs, while the expression of mature miRNA-5p/-3p counterparts is more likely to be regulated by different cis-eQTLs. Fine mapping and bioinformatics analyses pinpoint the peak cis-eSNP of miR-4331-5p, rs344650810, which is located in its seed region, as a causal variant for the changes in expression and function of this miRNA. Additionally, rs344650810 is significantly (P < 0.01) correlated with the density and percentage of type I muscle fibers. Altogether, this study provides a comprehensive atlas of miRNA-eQTLs in porcine skeletal muscle and new insights into regulatory mechanisms of miRNA expression.
Molecular cytogenetic map visualizes the heterozygotic genome and identifies translocation chromosomes in Citrus sinensis
Shipeng Song, Hui Liu, Luke Miao, Li He, Wenzhao Xie, Hong Lan, Changxiu Yu, Wenkai Yan, Yufeng Wu, Xiao-peng Wen, Qiang Xu, Xiuxin Deng, Chunli Chen
2023, 50(6): 410-421. doi: 10.1016/j.jgg.2022.12.003
Abstract (243) PDF (23)
Abstract:
Citrus sinensis is the most cultivated and economically valuable Citrus species in the world, whose genome has been assembled by three generation sequencings. However, chromosome recognition remains a problem due to the small size of chromosomes, and difficulty in differentiating between pseudo and real chromosomes because of a highly heterozygous genome. Here, we employ fluorescence in situ hybridization (FISH) with 9 chromosome painting probes, 30 oligo pools, and 8 repetitive sequences to visualize 18 chromosomes. Then, we develop an approach to identify each chromosome in one cell through single experiment of oligo-FISH and Chromoycin A3 (CMA) staining. By this approach, we construct a high-resolution molecular cytogenetic map containing the physical positions of CMA banding and 38 sequences of FISH including centromere regions, which enables us to visualize significant differences between homologous chromosomes. Based on the map, we locate several highly repetitive sequences on chromosomes and estimate sizes and copy numbers of each site. In particular, we discover the translocation regions of chromosomes 4 and 9 in C. sinensis “Valencia.” The high-resolution molecular cytogenetic map will help improve understanding of sweet orange genome assembly and also provide a fundamental reference for investigating chromosome evolution and chromosome engineering for genetic improvement in Citrus.
Epigenetic and transcriptional activation of the secretory kinase FAM20C as an oncogene in glioma
Bo Gong, Yi Liang, Qian Zhang, Huan Li, Jialing Xiao, Liang Wang, Han Chen, Wenjie Yang, Xiaoqing Wang, Yi Wang, Zongze He
2023, 50(6): 422-433. doi: 10.1016/j.jgg.2023.01.008
Abstract (261) PDF (22)
Abstract:
Gliomas are the most prevalent and aggressive malignancies of the nervous system. Previous bioinformatic studies have revealed the crucial role of the secretory pathway kinase FAM20C in the prediction of glioma invasion and malignancy. However, little is known about the pathogenesis of FAM20C in the regulation of glioma. Here, we construct the full-length transcriptome atlas in paired gliomas and observe that 22 genes are upregulated by full-length transcriptome and differential APA analysis. Analysis of ATAC-seq data reveals that both FAM20C and NPTN are the hub genes with chromatin openness and differential expression. Further, in vitro and in vivo studies suggest that FAM20C stimulates the proliferation and metastasis of glioma cells. Meanwhile, NPTN, a novel cancer suppressor gene, counteracts the function of FAM20C by inhibiting both the proliferation and migration of glioma. The blockade of FAM20C by neutralizing antibodies results in the regression of xenograft tumors. Moreover, MAX, BRD4, MYC, and REST are found to be the potential trans-active factors for the regulation of FAM20C. Taken together, our results uncover the oncogenic role of FAM20C in glioma and shed new light on the treatment of glioma by abolishing FAM20C.
Genetic regulators of cytokine responses upon BCG vaccination in children from West Africa
Collins K. Boahen, S.J.C.F.M. Moorlag, Kristoffer Jarlov Jensen, Vasiliki Matzaraki, Stephanie Fanucchi, Ivan Monteiro, Charlotte de Bree, Ezio T. Fok, Musa Mhlanga, Leo A.B. Joosten, Peter Aaby, Christine Stabell Benn, Mihai G. Netea, Vinod Kumar
2023, 50(6): 434-446. doi: 10.1016/j.jgg.2023.01.002
Abstract (186) PDF (11)
Abstract:
Genetic variation is a key factor influencing cytokine production capacity, but which genetic loci regulate cytokine production before and after vaccination, particularly in African population is unknown. Here, we aimed to identify single-nucleotide polymorphisms (SNPs) controlling cytokine responses after microbial stimulation in infants of West-African ancestry, comprising of low-birth-weight neonates randomized to bacillus Calmette–Guérin (BCG) vaccine-at-birth or to the usual delayed BCG. Genome-wide cytokine cytokine quantitative trait loci (cQTL) mapping revealed 12 independent loci, of which the LINC01082-LINC00917 locus influenced more than half of the cytokine-stimulation pairs assessed. Furthermore, nine distinct cQTLs were found among infants randomized to BCG. Functional validation confirmed that several complement genes affect cytokine response after BCG vaccination. We observed a limited overlap of common cQTLs between the West-African infants and cohorts of Western European individuals. These data reveal strong population-specific genetic effects on cytokine production and may indicate new opportunities for therapeutic intervention and vaccine development in African populations.
Letter to the editor
Synonymous somatic mutations that alter proximal out-of-frame downstream ATGs are associated with aberrant gene expression levels in cancer cells
Jinhui Kong, Shuo Zhang, Wenfeng Qian, Ke Li
2023, 50(6): 447-449. doi: 10.1016/j.jgg.2023.02.013
Abstract (249) PDF (19)
Abstract:
DPB3 and DPB4 proteins regulate Medicago flowering and leaf anthocyanin biosynthesis
Yingying Meng, Chongnan Wang, Qiqi Li, Wenkai Ji, Jiangqi Wen, Kirankumar S. Mysore, Yanxi Pei, Lifang Niu, Hao Lin
2023, 50(6): 450-453. doi: 10.1016/j.jgg.2023.01.007
Abstract (276) PDF (38)
Abstract:
lncRNA NEAT1 is required for splenic erythroid differentiation
Xiaoru Zhang, Yingnan Zhang, Guangfeng Geng, Jie Gao, Jingyuan Tong, Lihong Shi, Jinhua Liu
2023, 50(6): 454-457. doi: 10.1016/j.jgg.2023.01.012
Abstract (169) PDF (22)
Abstract:
Corrigendum to “Absence of Serpinb6a causes progressive hair cell apoptosis and hearing loss in mice” [Journal of Genetics and Genomics (2023) 50, 122–125]
Cheng Cheng, Jieyu Qi, Liyan Zhang, He Li, Jie Lu, Siyu Li, Zhong Zhang, Yue Qiu, Chen Zhang, Lulu Jiang, Chaorong Yu, Xia Gao, Phillip I. Bird, Renjie Chai
2023, 50(6): 458-458. doi: 10.1016/j.jgg.2023.04.011
Abstract (99) PDF (2)
Abstract: