Journal of Genetics and Genomics

Two diversities meet in the rhizosphere: root specialized metabolites and microbiome

Xiaochen Wang, Jingying Zhang, Xinjun Lu, Yang Bai, Guodong Wang

2024, 51(5): 467-478. doi: 10.1016/j.jgg.2023.10.004

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Plants serve as rich repositories of diverse chemical compounds collectively referred to as specialized metabolites. These compounds are of importance for adaptive processes, including interactions with various microbes both beneficial and harmful. Considering microbes as bioreactors, the chemical diversity undergoes dynamic changes when root-derived specialized metabolites (RSMs) and microbes encounter each other in the rhizosphere. Recent advancements in sequencing techniques and molecular biology tools have not only accelerated the elucidation of biosynthetic pathways of RSMs but also unveiled the significance of RSMs in plant-microbe interactions. In this review, we provide a comprehensive description of the effects of RSMs on microbe assembly in the rhizosphere and the influence of corresponding microbial changes on plant health, incorporating the most up-to-date information available. Additionally, we highlight open questions that remain for a deeper understanding of and harnessing the potential of RSM-microbe interactions to enhance plant adaptation to the environment. Finally, we propose a pipeline for investigating the intricate associations between root exometabolites and the rhizomicrobiome.

Genome engineering of the human gut microbiome

Linggang Zheng, Juntao Shen, Ruiyue Chen, Yucan Hu, Wei Zhao, Elaine Lai-Han Leung, Lei Dai

2024, 51(5): 479-491. doi: 10.1016/j.jgg.2024.01.002

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The human gut microbiome, a complex ecosystem, significantly influences host health, impacting crucial aspects such as metabolism and immunity. To enhance our comprehension and control of the molecular mechanisms orchestrating the intricate interplay between gut commensal bacteria and human health, the exploration of genome engineering for gut microbes is a promising frontier. Nevertheless, the complexities and diversities inherent in the gut microbiome pose substantial challenges to the development of effective genome engineering tools for human gut microbes. In this comprehensive review, we provide an overview of the current progress and challenges in genome engineering of human gut commensal bacteria, whether executed in vitro or in situ. A specific focus is directed towards the advancements and prospects in cargo DNA delivery and high-throughput techniques. Additionally, we elucidate the immense potential of genome engineering methods to enhance our understanding of the human gut microbiome and engineer the microorganisms to enhance human health.

Two ABCI family transporters, OsABCI15 and OsABCI16, are involved in grain-filling in rice

Bin Ma, Xiubiao Cao, Xiaoyuan Li, Zhong Bian, Qi-Qi Zhang, Zijun Fang, Jiyun Liu, Qun Li, Qiaoquan Liu, Lin Zhang, Zuhua He

2024, 51(5): 492-506. doi: 10.1016/j.jgg.2023.10.007

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Seed development is critical for plant reproduction and crop yield, with panicle seed-setting rate, grain-filling, and grain weight being key seed characteristics for yield improvement. However, few genes are known to regulate grain filling. Here, we identify two adenosine triphosphate (ATP)-binding cassette (ABC)I-type transporter genes, OsABCI15 and OsABCI16, involved in rice grain-filling. Both genes are highly expressed in developing seeds, and their proteins are localized to the plasma membrane and cytosol. Interestingly, knockout of OsABCI15 and OsABCI16 results in a significant reduction in seed-setting rate, caused predominantly by the severe empty pericarp phenotype, which differs from the previously reported low seed-setting phenotype resulting from failed pollination. Further analysis indicates that OsABCI15 and OsABCI16 participate in ion homeostasis and likely export ions between filial tissues and maternal tissues during grain filling. Importantly, overexpression of OsABCI15 and OsABCI16 enhances the seed-setting rate and grain yield in transgenic plants and decreases ion accumulation in brown rice. Moreover, the OsABCI15/16 orthologues in maize exhibit a similar role in kernel development, as demonstrated by their disruption in transgenic maize. Therefore, our findings reveal the important roles of two ABC transporters in cereal grain filling, highlighting their value in crop yield improvement.

Knockdown of neuronal DAF-15/Raptor promotes healthy aging in C. elegans

Xiao Zang, Qi Wang, Hanxin Zhang, Yiyan Zhang, Zi Wang, Zixing Wu, Di Chen

2024, 51(5): 507-516. doi: 10.1016/j.jgg.2023.11.002

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The highly conserved target of rapamycin (TOR) pathway plays an important role in aging across species. Previous studies have established that inhibition of the TOR complex 1 (TORC1) significantly extends lifespan in Caenorhabditis elegans. However, it has not been clear whether TORC1 perturbation affects aging in a spatiotemporal manner. Here, we apply the auxin-inducible degradation tool to knock down endogenous DAF-15, the C. elegans ortholog of regulatory associated protein of TOR (Raptor), to characterize its roles in aging. Global or tissue-specific inhibition of DAF-15 during development results in various growth defects, whereas neuron-specific knockdown of DAF-15 during adulthood significantly extends lifespan and healthspan. The neuronal DAF-15 deficiency-induced longevity requires the intestinal activities of DAF-16/FOXO and PHA-4/FOXA transcription factors, as well as the AAK-2/AMP-activated protein kinase α catalytic subunit. Transcriptome profiling reveals that the neuronal DAF-15 knockdown promotes the expression of genes involved in protection. These findings define the tissue-specific roles of TORC1 in healthy aging and highlight the importance of neuronal modulation of aging.

Distinguished biological adaptation architecture aggravated population differentiation of Tibeto-Burman-speaking people

Yuntao Sun, Mengge Wang, Qiuxia Sun, Yan Liu, Shuhan Duan, Zhiyong Wang, Yunyu Zhou, Jun Zhong, Yuguo Huang, Xinyu Huang, Qingxin Yang, Xiangping Li, Haoran Su, Yan Cai, Xiucheng Jiang, Jing Chen, Jiangwei Yan, Shengjie Nie, Liping Hu, Junbao Yang, Renkuan Tang, Chuan-Chao Wang, Chao Liu, Xiaohui Deng, Libing Yun, Guanglin He

2024, 51(5): 517-530. doi: 10.1016/j.jgg.2023.10.002

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Tibeto-Burman (TB) people have endeavored to adapt to the hypoxic, cold, and high-UV high-altitude environments in the Tibetan Plateau and complex disease exposures in lowland rainforests since the late Paleolithic period. However, the full landscape of genetic history and biological adaptation of geographically diverse TB-speaking people, as well as their interaction mechanism, remain unknown. Here, we generate a whole-genome meta-database of 500 individuals from 39 TB-speaking populations and present a comprehensive landscape of genetic diversity, admixture history, and differentiated adaptative features of geographically different TB-speaking people. We identify genetic differentiation related to geography and language among TB-speaking people, consistent with their differentiated admixture process with incoming or indigenous ancestral source populations. A robust genetic connection between the Tibetan-Yi corridor and the ancient Yellow River people supports their Northern China origin hypothesis. We finally report substructure-related differentiated biological adaptative signatures between highland Tibetans and Loloish speakers. Adaptative signatures associated with the physical pigmentation (EDAR and SLC24A5) and metabolism (ALDH9A1) are identified in Loloish people, which differed from the high-altitude adaptative genetic architecture in Tibetan. TB-related genomic resources provide new insights into the genetic basis of biological adaptation and better reference for the anthropologically informed sampling design in biomedical and genomic cohort research.

CircPTEN-MT from PTEN regulates mitochondrial energy metabolism

Danhui Ruan, Jiancheng Xu, Yang Liu, Juan Luo, Xuyang Zhao, Yuhua Li, Guangxi Wang, Jiawen Feng, Hui Liang, Yue Yin, Jianyuan Luo, Yuxin Yin

2024, 51(5): 531-542. doi: 10.1016/j.jgg.2023.12.011

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Phosphatase and tensin homolog (PTEN) is a multifunctional gene involved in a variety of physiological and pathological processes. Circular RNAs (circRNAs) are generated from back-splicing events during mRNA processing and participate in cell biological processes through binding to RNAs or proteins. However, PTEN-related circRNAs are largely unknown. Here, we report that circPTEN- mitochondria (MT) (hsa_circ_0002934) is a circular RNA encoded by exons 3, 4, and 5 of PTEN and is a critical regulator of mitochondrial energy metabolism. CircPTEN-MT is localized to mitochondria and physically associated with leucine-rich pentatricopeptide repeat-containing protein (LRPPRC), which regulates posttranscriptional gene expression in mitochondria. Knocking down circPTEN-MT reduces the interaction of LRPPRC and steroid receptor RNA activator (SRA) stem-loop interacting RNA binding protein (SLIRP) and inhibits the polyadenylation of mitochondrial mRNA, which decreases the mRNA level of the mitochondrial complex I subunit and reduces mitochondrial membrane potential and adenosine triphosphate production. Our data demonstrate that circPTEN-MT is an important regulator of cellular energy metabolism. This study expands our understanding of the role of PTEN, which produces both linear and circular RNAs with different and independent functions.

RCAN family member 3 deficiency contributes to noncompaction of the ventricular myocardium

Ting Hu, Lan Liu, He Wang, Mei Yang, Bocheng Xu, Hanbing Xie, Ziyuan Lin, Xiaolei Jin, Ping Wang, Yanyan Liu, Huaqin Sun, Shanling Liu

2024, 51(5): 543-553. doi: 10.1016/j.jgg.2023.12.010

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Noncompaction of the ventricular myocardium (NVM), the third most diagnosed cardiomyopathy, is characterized by prominent trabeculae and intratrabecular recesses. However, the genetic etiology of 40%–60% of NVM cases remains unknown. Here, we identify two infants with NVM, in a nonconsanguineous family, with a typical clinical presentation of persistent bradycardia since the prenatal period. A homozygous missense variant (R223L) of RCAN family member 3 (RCAN3) is detected in both infants using whole-exome sequencing. In the zebrafish model, marked cardiac dysfunction is detected in rcan3 deficiency (MO-rcan3^ATG-injected) and rcan^-/- embryos. Developmental dysplasia of both endocardial and myocardial layers is also detected in rcan3-deficient embryos. RCAN3 R223L variant mRNAs can not rescue heart defects caused by rcan3 knockdown or knockout; however, hRCAN3 mRNAs rescue these phenotypes. RNA-seq experiments show that several genes involved in cardiomyopathies are significantly regulated through multiple signaling pathways in the rcan3-knockdown zebrafish model. In human cardiomyocytes, RCAN3 deficiency results in reduced proliferation and increased apoptosis, together with an abnormal mitochondrial ultrastructure. Thus, we suggest that RCAN3 is a susceptibility gene for cardiomyopathies, especially NVM and that the R223L mutation is a potential loss-of-function variant.

Chromosome-scale genomes of Quercus sichourensis and Quercus rex provide insights into the evolution and adaptation of Fagaceae

Xue Liu, Weixiong Zhang, Yongting Zhang, Jing Yang, Peng Zeng, Zunzhe Tian, Weibang Sun, Jing Cai

2024, 51(5): 554-565. doi: 10.1016/j.jgg.2024.03.012

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The Fagaceae, a plant family with a wide distribution and diverse adaptability, has garnered significant interest as a subject of study in plant speciation and adaptation. Meanwhile, certain Fagaceae species are regarded as highly valuable wood resources due to the exceptional quality of their wood. In this study, we present two high-quality, chromosome-scale genome sequences for Quercus sichourensis (848.75 Mb) and Quercus rex (883.46 Mb). Comparative genomics analysis reveals that the difference in the number of plant disease resistance genes and the nonsynonymous and synonymous substitution ratio (Ka/Ks) of protein-coding genes among Fagaceae species are related to different environmental adaptations. Interestingly, most genes related to starch synthesis in the investigated Quercoideae species are located on a single chromosome, as compared to the outgroup species, Fagus sylvatica. Furthermore, resequencing and population analysis of Q. sichourensis and Q. rex reveal that Q. sichourensis has lower genetic diversity and higher deleterious mutations compared to Q. rex. The high-quality, chromosome-level genomes and the population genomic analysis of the critically endangered Q. sichourensis and Q. rex will provide an invaluable resource as well as insights for future study in these two species, even the genus Quercus, to facilitate their conservation.

Characteristics of genetic basis copy number variation in production and adaptation traits of Chinese indigenous sheep

Meilin Jin, Gang Liu, Jian Lu, Zhiqiang Chen, Huihua Wang, Taotao Li, Caihong Wei

2024, 51(5): 566-569. doi: 10.1016/j.jgg.2024.01.005

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Wide hybridizations reveal the robustness of functional centromeres in Triticum–Aegilops species complex lines

Yuhong Huang, Qinghua Shi, Chen Zhou, Chunhui Wang, Yang Liu, Congyang Yi, Handong Su, Fangpu Han

2024, 51(5): 570-573. doi: 10.1016/j.jgg.2023.12.001

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Pan-genome analysis reveals a highly plastic genome and extensive secreted protein polymorphism in Puccinia striiformis f. sp. tritici

Jierong Wang, Yuxi Peng, Yiwen Xu, Zhiru Li, Gangming Zhan, Zhensheng Kang, Jing Zhao

2024, 51(5): 574-577. doi: 10.1016/j.jgg.2023.12.004

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Corrigendum to “Long-term correction of hemophilia B through CRISPR/Cas9 induced homology-independent targeted integration” [Journal of Genetics and Genomics (2022) 49, 1114–1126]

Xi Chen, Xuran Niu, Yang Liu, Rui Zheng, Lei Yang, Jian Lu, Shuming Yin, Yu Wei, Jiahao Pan, Ahmed Sayed, Xueyun Ma, Meizhen Liu, Fengxiang Jing, Mingyao Liu, Jiazhi Hu, Liren Wang, Dali Li

2024, 51(5): 578-578. doi: 10.1016/j.jgg.2024.04.009

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2024 Vol. 51, No. 5