Your search keyword '"Sunil Kumar Sahu"' showing total 183 results

1. The chromosome-level genomes of the herbal magnoliids Warburgia ugandensis and Saururus chinensis

Author

Liuming Luo, Dongming Fang, Fang Wang, Qiongqiong Lin, Sunil Kumar Sahu, Yali Song, Jingmin Kang, Xuanmin Guang, Min Liu, Shixiao Luo, Gang Hao, Huan Liu, and Xing Guo

Subjects

Science

Abstract

Warburgia ugandensis and Saururus chinensis are two of the most important medicinal plants in magnoliids and are widely utilized in traditional Kenya and Chinese medicine, respectively. The absence of higher-quality reference genomes has hindered research on the medicinal compound biosynthesis mechanisms of these plants. We report the chromosome-level genome assemblies of W. ugandensis and S. chinensis, and generated 1.13 Gb and 0.53 Gb genomes from 74 and 27 scaffolds, respectively, using BGI-DIPSEQ, Nanopore, and Hi-C sequencing. The scaffold N50 lengths were 82.97 Mb and 48.53 Mb, and the assemblies were anchored to 14 and 11 chromosomes of W. ugandensis and S. chinensis, respectively. In total, 24,739 and 20,561 genes were annotated, and 98.5% and 98% of the BUSCO genes were fully represented, respectively. The chromosome-level genomes of W. ugandensis and S. chinensis will be valuable resources for understanding the genetics of these medicinal plants, studying the evolution of magnoliids and angiosperms and conserving plant genetic resources.

Published

2024

2. An integrated multi-omics approach reveals polymethoxylated flavonoid biosynthesis in Citrus reticulata cv. Chachiensis

Author

Jiawen Wen, Yayu Wang, Xu Lu, Huimin Pan, Dian Jin, Jialing Wen, Canzhi Jin, Sunil Kumar Sahu, Jianmu Su, Xinyue Luo, Xiaohuan Jin, Jiao Zhao, Hong Wu, E-Hu Liu, and Huan Liu

Subjects

Science

Abstract

Abstract Citrus reticulata cv. Chachiensis (CRC) is an important medicinal plant, its dried mature peels named “Guangchenpi”, has been used as a traditional Chinese medicine to treat cough, indigestion, and lung diseases for several hundred years. However, the biosynthesis of the crucial natural products polymethoxylated flavonoids (PMFs) in CRC remains unclear. Here, we report a chromosome-scale genome assembly of CRC with the size of 314.96 Mb and a contig N50 of 16.22 Mb. Using multi-omics resources, we discover a putative caffeic acid O-methyltransferase (CcOMT1) that can transfer a methyl group to the 3-hydroxyl of natsudaidain to form 3,5,6,7,8,3’,4’-heptamethoxyflavone (HPMF). Based on transient overexpression and virus-induced gene silencing experiments, we propose that CcOMT1 is a candidate enzyme in HPMF biosynthesis. In addition, a potential gene regulatory network associated with PMF biosynthesis is identified. This study provides insights into PMF biosynthesis and may assist future research on mining genes for the biosynthesis of plant-based medicines.

Published

2024

3. Haplotype-resolved chromosome-scale genomes of the Asian and African Savannah Elephants

Author

Minhui Shi, Fei Chen, Sunil Kumar Sahu, Qing Wang, Shangchen Yang, Zhihong Wang, Jin Chen, Huan Liu, Zhijun Hou, Sheng-Guo Fang, and Tianming Lan

Subjects

Science

Abstract

Abstract The Proboscidea, which includes modern elephants, were once the largest terrestrial animals among extant species. They suffered mass extinction during the Ice Age. As a unique branch on the evolutionary tree, the Proboscidea are of great significance for the study of living animals. In this study, we generate chromosome-scale and haplotype-resolved genome assemblies for two extant Proboscidea species (Asian Elephant, Elephas maximus and African Savannah Elephant, Loxodonta africana) using Pacbio, Hi-C, and DNBSEQ technologies. The assembled genome sizes of the Asian and African Savannah Elephant are 3.38 Gb and 3.31 Gb, with scaffold N50 values of 130 Mb and 122 Mb, respectively. Using Hi-C technology ~97% of the scaffolds are anchored to 29 pseudochromosomes. Additionally, we identify ~9 Mb Y-linked sequences for each species. The high-quality genome assemblies in this study provide a valuable resource for future research on ecology, evolution, biology and conservation of Proboscidea species.

Published

2024

4. Guardians of the fragrance: Uncovering the genetics behind citrus oil glands

Author

Sunil Kumar Sahu and Muhammad Imran

Subjects

Botany, QK1-989

Published

2024

5. Chromosome-scale genomes of commercially important mahoganies, Swietenia macrophylla and Khaya senegalensis

Author

Sunil Kumar Sahu, Min Liu, Guanlong Wang, Yewen Chen, Ruirui Li, Dongming Fang, Durgesh Nandini Sahu, Weixue Mu, Jinpu Wei, Jie Liu, Yuxian Zhao, Shouzhou Zhang, Michael Lisby, Xin Liu, Xun Xu, Laigeng Li, Sibo Wang, Huan Liu, and Chengzhong He

Subjects

Science

Abstract

Abstract Mahogany species (family Meliaceae) are highly valued for their aesthetic and durable wood. Despite their economic and ecological importance, genomic resources for mahogany species are limited, hindering genetic improvement and conservation efforts. Here we perform chromosome-scale genome assemblies of two commercially important mahogany species: Swietenia macrophylla and Khaya senegalensis. By combining 10X sequencing and Hi-C data, we assemble high-quality genomes of 274.49 Mb (S. macrophylla) and 406.50 Mb (K. senegalensis), with scaffold N50 lengths of 8.51 Mb and 7.85 Mb, respectively. A total of 99.38% and 98.05% of the assembled sequences are anchored to 28 pseudo-chromosomes in S. macrophylla and K. senegalensis, respectively. We predict 34,129 and 31,908 protein-coding genes in S. macrophylla and K. senegalensis, respectively, of which 97.44% and 98.49% are functionally annotated. The chromosome-scale genome assemblies of these mahogany species could serve as a vital genetic resource, especially in understanding the properties of non-model woody plants. These high-quality genomes could support the development of molecular markers for breeding programs, conservation efforts, and the sustainable management of these valuable forest resources.

Published

2023

6. Chromosome-scale genomes of five Hongmu species in Leguminosae

Author

Jinlong Yang, Min Liu, Sunil Kumar Sahu, Ruirui Li, Guanlong Wang, Xing Guo, Jianmei Liu, Le Cheng, Huayan Jiang, Feng Zhao, Shuguang Wei, Shixiao Luo, and Huan Liu

Subjects

Science

Abstract

Abstract The Legume family (Leguminosae or Fabaceae), is one of the largest and economically important flowering plants. Heartwood, the core of a tree trunk or branch, is a valuable and renewable resource employed for centuries in constructing sturdy and sustainable structures. Hongmu refers to a category of precious timber trees in China, encompassing 29 woody species, primarily from the legume genus. Due to the lack of genome data, detailed studies on their economic and ecological importance are limited. Therefore, this study generates chromosome-scale assemblies of five Hongmu species in Leguminosae: Pterocarpus santalinus, Pterocarpus macrocarpus, Dalbergia cochinchinensis, Dalbergia cultrata, and Senna siamea, using a combination of short-reads, long-read nanopore, and Hi-C data. We obtained 623.86 Mb, 634.58 Mb, 700.60 Mb, 645.98 Mb, and 437.29 Mb of pseudochromosome level assemblies with the scaffold N50 lengths of 63.1 Mb, 63.7 Mb, 70.4 Mb, 61.1 Mb and 32.2 Mb for P. santalinus, P. macrocarpus, D. cochinchinensis, D. cultrata and S. siamea, respectively. These genome data will serve as a valuable resource for studying crucial traits, like wood quality, disease resistance, and environmental adaptation in Hongmu.

Published

2023

7. Chromosome-scale genomes of commercial timber trees (Ochroma pyramidale, Mesua ferrea, and Tectona grandis)

Author

Sunil Kumar Sahu, Min Liu, Yewen Chen, Jinshan Gui, Dongming Fang, Xiaoli Chen, Ting Yang, Chengzhong He, Le Cheng, Jinlong Yang, Durgesh Nandini Sahu, Linzhou Li, Hongli Wang, Weixue Mu, Jinpu Wei, Jie Liu, Yuxian Zhao, Shouzhou Zhang, Michael Lisby, Xin Liu, Xun Xu, Laigeng Li, Sibo Wang, and Huan Liu

Subjects

Science

Abstract

Abstract Wood is the most important natural and endlessly renewable source of energy. Despite the ecological and economic importance of wood, many aspects of its formation have not yet been investigated. We performed chromosome-scale genome assemblies of three timber trees (Ochroma pyramidale, Mesua ferrea, and Tectona grandis) which exhibit different wood properties such as wood density, hardness, growth rate, and fiber cell wall thickness. The combination of 10X, stLFR, Hi-Fi sequencing and HiC data led us to assemble high-quality genomes evident by scaffold N50 length of 55.97 Mb (O. pyramidale), 22.37 Mb (M. ferrea) and 14.55 Mb (T. grandis) with >97% BUSCO completeness of the assemblies. A total of 35774, 24027, and 44813 protein-coding genes were identified in M. ferrea, T. grandis and O. pyramidale, respectively. The data generated in this study is anticipated to serve as a valuable genetic resource and will promote comparative genomic analyses, and it is of practical importance in gaining a further understanding of the wood properties in non-model woody species.

Published

2023

8. Single-nucleus chromatin landscapes during zebrafish early embryogenesis

Author

Xiumei Lin, Xueqian Yang, Chuan Chen, Wen Ma, Yiqi Wang, Xuerong Li, Kaichen Zhao, Qiuting Deng, Weimin Feng, Yuting Ma, Hui Wang, Lveming Zhu, Sunil Kumar Sahu, Fengzhen Chen, Xiuqing Zhang, Zhiqiang Dong, Chuanyu Liu, Longqi Liu, and Chang Liu

Subjects

Science

Abstract

Abstract Vertebrate embryogenesis is a remarkable process, during which numerous cell types of different lineages arise within a short time frame. An overwhelming challenge to understand this process is the lack of dynamic chromatin accessibility information to correlate cis-regulatory elements (CREs) and gene expression within the hierarchy of cell fate decisions. Here, we employed single-nucleus ATAC-seq to generate a chromatin accessibility dataset on the first day of zebrafish embryogenesis, including 3.3 hpf, 5.25 hpf, 6 hpf, 10 hpf, 12 hpf, 18 hpf and 24 hpf, obtained 51,620 high-quality nuclei and 23 clusters. Furthermore, by integrating snATAC-seq data with single-cell RNA-seq data, we described the dynamics of chromatin accessibility and gene expression across developmental time points, which validates the accuracy of the chromatin landscape data. Together, our data could serve as a fundamental resource for revealing the epigenetic regulatory mechanisms of zebrafish embryogenesis.

Published

2023

9. The genome of Acorus deciphers insights into early monocot evolution

Author

Xing Guo, Fang Wang, Dongming Fang, Qiongqiong Lin, Sunil Kumar Sahu, Liuming Luo, Jiani Li, Yewen Chen, Shanshan Dong, Sisi Chen, Yang Liu, Shixiao Luo, Yalong Guo, and Huan Liu

Subjects

Science

Abstract

Abstract Acorales is the sister lineage to all the other extant monocot plants. Genomic resource enhancement of this genus can help to reveal early monocot genomic architecture and evolution. Here, we assemble the genome of Acorus gramineus and reveal that it has ~45% fewer genes than the majority of monocots, although they have similar genome size. Phylogenetic analyses based on both chloroplast and nuclear genes consistently support that A. gramineus is the sister to the remaining monocots. In addition, we assemble a 2.2 Mb mitochondrial genome and observe many genes exhibit higher mutation rates than that of most angiosperms, which could be the reason leading to the controversies of nuclear genes- and mitochondrial genes-based phylogenetic trees existing in the literature. Further, Acorales did not experience tau (τ) whole-genome duplication, unlike majority of monocot clades, and no large-scale gene expansion is observed. Moreover, we identify gene contractions and expansions likely linking to plant architecture, stress resistance, light harvesting, and essential oil metabolism. These findings shed light on the evolution of early monocots and genomic footprints of wetland plant adaptations.

Published

2023

10. Editorial: Bioinformatics, big data and agriculture: a challenge for the future

Author

Sunil Kumar Sahu, Muhammad Waseem, and Mehtab Muhammad Aslam

Subjects

big data, sustainable agriculture, digital agriculture, data analysis, data, Plant culture, SB1-1110

Published

2023

11. Isolation of anticancer bioactive secondary metabolites from the sponge-derived endophytic fungi Penicillium sp. and in-silico computational docking approach

Author

Kumaravel Kaliaperumal, Limbadri Salendra, Yonghong Liu, Zhiran Ju, Sunil Kumar Sahu, Sanniyasi Elumalai, Kumaran Subramanian, Nahaa M. Alotaibi, Nawaf Alshammari, Mohd Saeed, and Rohini Karunakaran

Subjects

anticancer, averufin, fungi, HL60, molecular docking, sponges, Microbiology, QR1-502

Abstract

IntroductionFungus-derived secondary metabolites are fascinating with biomedical potential and chemical diversity. Mining endophytic fungi for drug candidates is an ongoing process in the field of drug discovery and medicinal chemistry. Endophytic fungal symbionts from terrestrial plants, marine flora, and fauna tend to produce interesting types of secondary metabolites with biomedical importance of anticancer, antiviral, and anti-tuberculosis properties.MethodsAn organic ethyl acetate extract of Penicillium verruculosum sponge-derived endophytic fungi from Spongia officinalis yielded seven different secondary metabolites which are purified through HPLC. The isolated compounds are of averufin (1), aspergilol-A (2), sulochrin (3), monomethyl sulochrin (4), methyl emodin (5), citreorosein (6), and diorcinol (7). All the seven isolated compounds were characterized by high-resolution NMR spectral studies. All isolated compounds', such as anticancer, antimicrobial, anti-tuberculosis, and antiviral, were subjected to bioactivity screening.ResultsOut of seven tested compounds, compound (1) exhibits strong anticancer activity toward myeloid leukemia. HL60 cell lines have an IC50 concentration of 1.00μm, which is nearly significant to that of the standard anticancer drug taxol. A virtual computational molecular docking approach of averufin with HL60 antigens revealed that averufin binds strongly with the protein target alpha, beta-tubulin (1JFF), with a −10.98 binding score. Consecutive OSIRIS and Lipinski ADME pharmacokinetic validation of averufin with HL60 antigens revealed that averufin has good pharmacokinetic properties such as drug score, solubility, and mutagenic nature. Furthermore, aspergilol-A (2) is the first report on the Penicillium verruculosum fungal strain.DiscussionWe concluded that averufin (1) isolated from Penicillium verruculosum can be taken for further preliminary clinical trials like animal model in-vivo studies and pharmacodynamic studies. A future prospect of in-vivo anticancer screening of averufin can be validated through the present experimental findings.

Published

2023

12. Soil conditions and the plant microbiome boost the accumulation of monoterpenes in the fruit of Citrus reticulata ‘Chachi’

Author

Jianmu Su, Yayu Wang, Mei Bai, Tianhua Peng, Huisi Li, Hui-Juan Xu, Guifang Guo, Haiyi Bai, Ning Rong, Sunil Kumar Sahu, Hanjun He, Xiangxiu Liang, Canzhi Jin, Wei Liu, Mikael Lenz Strube, Lone Gram, Yongtao Li, Ertao Wang, Huan Liu, and Hong Wu

Subjects

Soil conditions, Plant microbiome, Monoterpenes, Citrus reticulata ‘Chachi’, Citri Reticulatae Pericarpium, Microbial ecology, QR100-130

Abstract

Abstract Background The medicinal material quality of Citrus reticulata ‘Chachi’ differs depending on the bioactive components influenced by the planting area. Environmental factors, such as soil nutrients, the plant-associated microbiome and climatic conditions, play important roles in the accumulation of bioactive components in citrus. However, how these environmental factors mediate the production of bioactive components of medicinal plants remains understudied. Results Here, a multi-omics approach was used to clarify the role of environmental factors such as soil nutrients and the root-associated microbiome on the accumulation of monoterpenes in the peel of C. reticulata ‘Chachi’ procured from core (geo-authentic product region) and non-core (non-geo-authentic product region) geographical regions. The soil environment (high salinity, Mg, Mn and K) enhanced the monoterpene content by promoting the expression of salt stress-responsive genes and terpene backbone synthase in the host plants from the core region. The microbial effects on the monoterpene accumulation of citrus from the core region were further verified by synthetic community (SynCom) experiments. Rhizosphere microorganisms activated terpene synthesis and promoted monoterpene accumulation through interactions with the host immune system. Endophyte microorganisms derived from soil with the potential for terpene synthesis might enhance monoterpene accumulation in citrus by providing precursors of monoterpenes. Conclusions Overall, this study demonstrated that both soil properties and the soil microbiome impacted monoterpene production in citrus peel, thus providing an essential basis for increasing fruit quality via reasonable fertilization and precision microbiota management. Video Abstract

Published

2023

13. A draft genome of the medicinal plant Cremastra appendiculata (D. Don) provides insights into the colchicine biosynthetic pathway

Author

Jing Wang, Jingjing Xie, Haixia Chen, Xia Qiu, Hai Cui, Yijiang Liu, Sunil Kumar Sahu, Dongming Fang, Tengyan Li, Mei Wang, Yewen Chen, Huan Liu, Jianyong Zhang, and Binbin Wang

Subjects

Biology (General), QH301-705.5

Abstract

A draft genome assembly of Cremastra appendiculata (D. Don) Makino, a traditional Chinese medicine plant, identified genes responsible for plant colchicine biosynthesis.

Published

2022

14. GWAS, MWAS and mGWAS provide insights into precision agriculture based on genotype-dependent microbial effects in foxtail millet

Author

Yayu Wang, Xiaolin Wang, Shuai Sun, Canzhi Jin, Jianmu Su, Jinpu Wei, Xinyue Luo, Jiawen Wen, Tong Wei, Sunil Kumar Sahu, Hongfeng Zou, Hongyun Chen, Zhixin Mu, Gengyun Zhang, Xin Liu, Xun Xu, Lone Gram, Huanming Yang, Ertao Wang, and Huan Liu

Subjects

Science

Abstract

Plant genotype alone appears to be insufficient to explain trait variations. This study integrates GWAS, MWAS and mGWAS in 827 foxtail millet cultivars, revealing that root-associated microbiota affect plant phenotypes in a host genotype-dependent manner.

Published

2022

15. Chromosome-scale genome of Indian rosewood (Dalbergia sissoo)

Author

Sunil Kumar Sahu, Min Liu, Ruirui Li, Yewen Chen, Guanlong Wang, Dongming Fang, Durgesh Nandini Sahu, Jinpu Wei, Sibo Wang, Huan Liu, and Chengzhong He

Subjects

genome, chromosome, Dalbergia, timber tree, comparative genomics, rosewood, Plant culture, SB1-1110

Published

2023

16. Whole-genome resequencing of Chinese pangolins reveals a population structure and provides insights into their conservation

Author

Qing Wang, Tianming Lan, Haimeng Li, Sunil Kumar Sahu, Minhui Shi, Yixin Zhu, Lei Han, Shangchen Yang, Qian Li, Le Zhang, Zhangwen Deng, Huan Liu, and Yan Hua

Subjects

Biology (General), QH301-705.5

Abstract

Whole-genome resequencing of Chinese pangolins reveals a new population CPA that is genetically distinct from and harbor more homozygosity than CPB and CPC populations, indicating prevalence in inbreeding and implying challenges in conservation.

Published

2022

17. Equus roundworms (Parascaris univalens) are undergoing rapid divergence while genes involved in metabolic as well as anthelminic resistance are under positive selection

Author

Lei Han, Tianming Lan, Yaxian Lu, Mengchao Zhou, Haimeng Li, Haorong Lu, Qing Wang, Xiuyun Li, Shan Du, Chunyu Guan, Yong Zhang, Sunil Kumar Sahu, Puyi Qian, Shaofang Zhang, Hongcheng Zhou, Wei Guo, Hongliang Chai, Sibo Wang, Quan Liu, Huan Liu, and Zhijun Hou

Subjects

Diversification, Parascaris univalens, Adaptation, Evolution, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The evolution of parasites is often directly affected by the host's environment. Studies on the evolution of the same parasites in different hosts are of great interest and are highly relevant to our understanding of divergence. Methods Here we performed whole-genome sequencing of Parascaris univalens from different Equus hosts (horses, zebras and donkeys). Phylogenetic and selection analyses were performed to study the divergence and adaptability of P. univalens. Results At the genetic level, multiple lines of evidence indicate that P. univalens is mainly separated into two clades (horse-derived and zebra & donkey-derived). This divergence began 300–1000 years ago, and we found that most of the key enzymes related to glycolysis were under strong positive selection in zebra & donkey-derived roundworms, whereas the lipid-related metabolic system was under positive selection in horse-derived roundworms, indicating that the adaptive evolution of metabolism has occurred over the past few centuries. In addition, we found that some drug-related genes showed a significantly higher degree of selection in diverse populations. Conclusions This work reports the adaptive evolution and divergence trend of P. univalens in different hosts for the first time. Its results indicate that the divergence of P. univalens is a continuous, dynamic process. Furthermore, the continuous monitoring of the effects of differences in nutritional and drug histories on the rapid evolution of roundworms is conducive to further understanding host-parasite interactions.

Published

2022

18. The performance of whole genome bisulfite sequencing on DNBSEQ-Tx platform examined by different library preparation strategies

Author

Boyang Cao, Huijuan Luo, Tian Luo, Nannan Li, Kang Shao, Kui Wu, Sunil Kumar Sahu, Fuqiang Li, and Cong Lin

Subjects

Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Whole-genome bisulfite sequencing (WGBS) technology can provide comprehensive DNA methylation at a single-base resolution on a genome-wide scale, and is considered to be the gold standard for the detection of 5-methylcytosine (5 mC). However, the International Human Epigenome Consortium propose a full DNA methylome should have at least 30 fold redundant coverage of the reference genome from a single biological replicate. Therefore, it remains cost prohibitive for large-scale studies. To find a solution, the DNBSEQ-Tx sequencing was developed that can generate up to 6 Tb data in a single run for projects involving large-scale sequencing. Results: In this study, we provided two WGBS library construction methods DNB_PREBSseq and DNB_SPLATseq optimized for the DNBSEQ-Tx sequencer, and demonstrated the performance of these two methods on the DNBSEQ-Tx platform, using the DNA extracted from four different cell lines. We also compared the sequencing data from these two WGBS library construction methods with HeLa cell line data from ENCODE sequenced on Illumina HiSeq X Ten and WGBS data of two other cell lines sequenced on HiSeq2500. Various quality control (QC) analyses such as the base quality scores, methylation-bias (m-bias), and conversion efficiency indicated that the data sequenced on the DNBSEQ-Tx platform met the WGBS-required quality controls. Meanwhile, our data closely resembled the coverage shown by the data generated by the Illumina platform. Conclusions: Our study showed that with our optimized methods, DNBSEQ-Tx could generate high-quality WGBS data with relatively good stability for large-scale WGBS sequencing applications. Thus, we conclude that DNBSEQ-Tx can be used for a wide range of WGBS research.

Published

2023

19. Single cell atlas for 11 non-model mammals, reptiles and birds

Author

Dongsheng Chen, Jian Sun, Jiacheng Zhu, Xiangning Ding, Tianming Lan, Xiran Wang, Weiying Wu, Zhihua Ou, Linnan Zhu, Peiwen Ding, Haoyu Wang, Lihua Luo, Rong Xiang, Xiaoling Wang, Jiaying Qiu, Shiyou Wang, Haimeng Li, Chaochao Chai, Langchao Liang, Fuyu An, Le Zhang, Lei Han, Yixin Zhu, Feiyue Wang, Yuting Yuan, Wendi Wu, Chengcheng Sun, Haorong Lu, Jihong Wu, Xinghuai Sun, Shenghai Zhang, Sunil Kumar Sahu, Ping Liu, Jun Xia, Lijing Zhang, Haixia Chen, Dongming Fang, Yuying Zeng, Yiquan Wu, Zehua Cui, Qian He, Sanjie Jiang, Xiaoyan Ma, Weimin Feng, Yan Xu, Fang Li, Zhongmin Liu, Lei Chen, Fang Chen, Xin Jin, Wei Qiu, Tianjiao Wang, Yang Li, Xiumei Xing, Huanming Yang, Yanchun Xu, Yan Hua, Yahong Liu, Huan Liu, and Xun Xu

Subjects

Science

Abstract

Here the authors report single-nucleus RNA sequencing for several anatomical locations in 11 species, including cat, dog, hamster, lizard, goat, rabbit, duck, pigeon, pangolin, tiger, and deer, highlighting coexpression of SARS-CoV-2 entry factors ACE2 and TMPRSS2.

Published

2021

20. Chloranthus genome provides insights into the early diversification of angiosperms

Author

Xing Guo, Dongming Fang, Sunil Kumar Sahu, Shuai Yang, Xuanmin Guang, Ryan Folk, Stephen A. Smith, Andre S. Chanderbali, Sisi Chen, Min Liu, Ting Yang, Shouzhou Zhang, Xin Liu, Xun Xu, Pamela S. Soltis, Douglas E. Soltis, and Huan Liu

Subjects

Science

Abstract

Chloranthales remain the last lineage of core angiosperms that lacks a nuclear genome assembly. Here, the authors report the genome assembly of Chloranthus spicatus and show its contribution to deepen our understanding on diversification, phylogeny, and genome evolution in angiosperms.

Published

2021

21. Transcriptomic analyses provide new insights into green and purple color pigmentation in Rheum tanguticum medicinal plants

Author

Haixia Chen, Tsan-Yu Chiu, Sunil Kumar Sahu, Haixi Sun, Jiawen Wen, Jianbo Sun, Qiyuan Li, Yangfan Tang, Hong Jin, and Huan Liu

Subjects

Rheum tanguticum, Color, RNA-seq, Chlorophyll, Medicine, Biology (General), QH301-705.5

Abstract

Background Rheum tanguticum Maxim. ex Balf is a traditional Chinese medicinal plant that is commonly used to treat many ailments. It belongs to the Polygonacae family and grows in northwest and southwest China. At high elevations, the color of the plant’s young leaves is purple, which gradually changes to green during the growth cycle. Anthraquinone, which is known for various biological activities, is the main bioactive compound in R. tanguticum. Although a significant amount of research has been done on R. tanguticum in the past, the lack of transcriptome data limits our knowledge of the gene regulatory networks involved in pigmentation and in the metabolism of bioactive compounds in Rheum species. Methods To fill this knowledge gap, we generated high-quality RNA-seq data and performed multi-tissue transcriptomic analyses of R. tanguticum. Results We found that three chlorophyll degradation enzymes (RtPPH, RtPao and RtRCCR) were highly expressed in purple samples, which suggests that the purple pigmentation is mainly due to the effects of chlorophyll degradation. Overall, these data may aid in drafting the transcriptional network in the regulation and biosynthesis of medicinally active compounds in the future.

Published

2022

22. The chromosome-scale genome of the raccoon dog: Insights into its evolutionary characteristics

Author

Tianming Lan, Haimeng Li, Shangchen Yang, Minhui Shi, Lei Han, Sunil Kumar Sahu, Yaxian Lu, Jiangang Wang, Mengchao Zhou, Hui Liu, Junxuan Huang, Qing Wang, Yixin Zhu, Li Wang, Yanchun Xu, Chuyu Lin, Huan Liu, and Zhijun Hou

Subjects

Animals, Genetics, Genomics, Zoology, Science

Abstract

Summary: The raccoon dog (Nyctereutes procyonoides) is an invasive canid species native to East Asia with several distinct characteristics. Here, we report a chromosome-scale genome of the raccoon dog with high contiguity, completeness, and accuracy. The intact taste receptor genes, expanded gene families, and positively selected genes related to digestion, absorption, foraging, and detoxification likely support the omnivory of raccoon dogs. Several positively selected genes and raccoon dog-specific mutations in TDRD6 and ZP3 genes may explain their high reproductivity. Enriched GO terms in energy metabolism and positively selected immune genes were speculated to be closely related to the diverse immune system of raccoon dogs. In addition, we found that several expanded gene families and positively selected genes related to lipid metabolism and insulin resistance may contribute to winter sleep of the raccoon dog. This high-quality genome provides a valuable resource for understanding the evolutionary characteristics of this species.

Published

2022

23. Exploring Pan-Genomes: An Overview of Resources and Tools for Unraveling Structure, Function, and Evolution of Crop Genes and Genomes

Author

Sushma Naithani, Cecilia H. Deng, Sunil Kumar Sahu, and Pankaj Jaiswal

Subjects

pan-genomes, comparative genomics, plant pathways, gene annotation, gene ontology, gravitropism, Microbiology, QR1-502

Abstract

The availability of multiple sequenced genomes from a single species made it possible to explore intra- and inter-specific genomic comparisons at higher resolution and build clade-specific pan-genomes of several crops. The pan-genomes of crops constructed from various cultivars, accessions, landraces, and wild ancestral species represent a compendium of genes and structural variations and allow researchers to search for the novel genes and alleles that were inadvertently lost in domesticated crops during the historical process of crop domestication or in the process of extensive plant breeding. Fortunately, many valuable genes and alleles associated with desirable traits like disease resistance, abiotic stress tolerance, plant architecture, and nutrition qualities exist in landraces, ancestral species, and crop wild relatives. The novel genes from the wild ancestors and landraces can be introduced back to high-yielding varieties of modern crops by implementing classical plant breeding, genomic selection, and transgenic/gene editing approaches. Thus, pan-genomic represents a great leap in plant research and offers new avenues for targeted breeding to mitigate the impact of global climate change. Here, we summarize the tools used for pan-genome assembly and annotations, web-portals hosting plant pan-genomes, etc. Furthermore, we highlight a few discoveries made in crops using the pan-genomic approach and future potential of this emerging field of study.

Published

2023

24. Review of Soft Computing Techniques in Monitoring Cardiovascular Disease in the Context of South Asian Countries

Author

Gajendra Singh Thakur, Sunil Kumar Sahu, N. Kumar Swamy, Manish Gupta, Tony Jan, and Mukesh Prasad

Subjects

soft computing, cardiovascular diseases (CVDs), machine learning models, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The term “soft computing” refers to a system that can work with varying degrees of uncertainty and approximations in real-life complex problems using various techniques such as Fuzzy Logic, Artificial Neural Networks (ANN), Machine Learning (ML), and Genetic Algorithms (GA). Owing to the low-cost and high-performance digital processors today, the use of soft computing techniques has become more prevalent. The main focus of this paper is to study the use of soft computing in the prediction and diagnosis of heart diseases, which are considered one of the major causes of fatalities in modern-day humans. The heart is a major human organ that can be affected by various conditions such as high blood pressure, diabetes, and heart failure. The main cause of heart failure is the narrowing of the blood vessels due to excess cholesterol deposits in the coronary arteries. The objective of this study is to review and compare the various soft computing techniques that are used for the prediction, diagnosis, failure, detection, identification, and classification of heart disease. In this paper, a comprehensive list of recent soft computing techniques in heart condition monitoring is reviewed and compared with an experiment with specific applications to developing countries including South Asian countries. The relevant experimental outcomes demonstrate the benefits of soft computing in medical services with a high accuracy of 99.4% from Fuzzy Logic and Convolutional Neural Networks, with comparable results from other competing state-of-the-art soft computing models.

Published

2023

25. Screening of cell‐virus, cell‐cell, gene‐gene crosstalk among animal kingdom at single cell resolution

Author

Dongsheng Chen, Zhihua Ou, Jiacheng Zhu, Haoyu Wang, Peiwen Ding, Lihua Luo, Xiangning Ding, Chengcheng Sun, Tianming Lan, Sunil Kumar Sahu, Weiying Wu, Yuting Yuan, Wendi Wu, Jiaying Qiu, Yixin Zhu, Qizhen Yue, Yi Jia, Yanan Wei, Qiuyu Qin, Runchu Li, Wandong Zhao, Zhiyuan Lv, Mingyi Pu, Boqiong Lv, Shangchen Yang, Ashley Chang, Xiaofeng Wei, Fengzhen Chen, Tao Yang, Zhenyong Wei, Fan Yang, Peijing Zhang, Guoji Guo, Yuejiao Li, Yan Hua, and Huan Liu

Subjects

crosstalk, single cell sequencing, Medicine (General), R5-920

Abstract

Abstract Background The exact animal origin of severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) remains obscure and understanding its host range is vital for preventing interspecies transmission. Methods Herein, we applied single‐cell sequencing to multiple tissues of 20 species (30 data sets) and integrated them with public resources (45 data sets covering 26 species) to expand the virus receptor distribution investigation. While the binding affinity between virus and receptor is essential for viral infectivity, understanding the receptor distribution could predict the permissive organs and tissues when infection occurs. Results Based on the transcriptomic data, the expression profiles of receptor or associated entry factors for viruses capable of causing respiratory, blood, and brain diseases were described in detail. Conserved cellular connectomes and regulomes were also identified, revealing fundamental cell‐cell and gene‐gene cross‐talks from reptiles to humans. Conclusions Overall, our study provides a resource of the single‐cell atlas of the animal kingdom which could help to identify the potential host range and tissue tropism of viruses and reveal the host‐virus co‐evolution.

Published

2022

26. Genome-wide analyses across Viridiplantae reveal the origin and diversification of small RNA pathway-related genes

Author

Sibo Wang, Hongping Liang, Yan Xu, Linzhou Li, Hongli Wang, Durgesh Nandini Sahu, Morten Petersen, Michael Melkonian, Sunil Kumar Sahu, and Huan Liu

Subjects

Biology (General), QH301-705.5

Abstract

Wang, Liang et al. conduct a genome-wide investigation into the origin of small RNA pathway-related genes in Viridiplantae. Their findings suggest that streptophyte algae progressively adapted to a subaerial environment through generation of these pathways.

Published

2021

27. An efficient pipeline for ancient DNA mapping and recovery of endogenous ancient DNA from whole‐genome sequencing data

Author

Wenhao Xu, Yu Lin, Keliang Zhao, Haimeng Li, Yinping Tian, Jacob Njaramba Ngatia, Yue Ma, Sunil Kumar Sahu, Huabing Guo, Xiaosen Guo, Yan Chun Xu, Huan Liu, Karsten Kristiansen, Tianming Lan, and Xinying Zhou

Subjects

ancient DNA, BWA mem, deamination, DNA damage, genome mapping, Ecology, QH540-549.5

Abstract

Abstract Ancient DNA research has developed rapidly over the past few decades due to improvements in PCR and next‐generation sequencing (NGS) technologies, but challenges still exist. One major challenge in relation to ancient DNA research is to recover genuine endogenous ancient DNA sequences from raw sequencing data. This is often difficult due to degradation of ancient DNA and high levels of contamination, especially homologous contamination that has extremely similar genetic background with that of the real ancient DNA. In this study, we collected whole‐genome sequencing (WGS) data from 6 ancient samples to compare different mapping algorithms. To further explore more effective methods to separate endogenous DNA from homologous contaminations, we attempted to recover reads based on ancient DNA specific characteristics of deamination, depurination, and DNA fragmentation with different parameters. We propose a quick and improved pipeline for separating endogenous ancient DNA while simultaneously decreasing homologous contaminations to very low proportions. Our goal in this research was to develop useful recommendations for ancient DNA mapping and for separation of endogenous DNA to facilitate future studies of ancient DNA.

Published

2021

28. Genome-Wide Analysis of the MADS-Box Gene Family in Holoparasitic Plants (Balanophora subcupularis and Balanophora fungosa var. globosa)

Author

Kunyu Duan, Hui Fu, Dongming Fang, Kaimeng Wang, Wen Zhang, Huan Liu, Sunil Kumar Sahu, and Xiaoli Chen

Subjects

parasitic plants, MADS-box gene family, gene loss, gene redundancy, flowering, holoparasitic plant, Plant culture, SB1-1110

Abstract

MADS-box is an important transcription factor family that is involved in the regulation of various stages of plant growth and development, especially flowering regulation and flower development. Being a holoparasitic plant, the body structure of Balanophoraceae has changed dramatically over time, and its vegetative and reproductive organs have been extensively modified, with rudimentary flower organs. Meanwhile, extraordinary gene losses have been identified in holoparasitic plants compared with autotrophs. Our study reveals that the MADS-box gene family contracted sharply in Balanophora subcupularis and Balanophora fungosa var. globosa, and some subfamilies were lost, exhibiting reduced redundancy in both. The genes that functioned in the transition from the vegetative to floral production stages suffered a significant loss, but the ABCE model genes remained intact. We further investigated genes related to flowering regulation in B. subcupularis and B. fungosa var. globosa, vernalization and autonomous ways of regulating flowering time remained comparatively integrated, while genes in photoperiod and circadian clock pathways were almost lost. Convergent gene loss in flowering regulation occurred in Balanophora and another holoparasitic plant Sapria himalayana (Rafflesiaceae). The genome-wide analysis of the MADS-box gene family in Balanophora species provides valuable information for understanding the classification, gene loss pattern, and flowering regulation mechanism of MADS-box gene family in parasitic plants.

Published

2022

29. Comparative Analyses of 3,654 Plastid Genomes Unravel Insights Into Evolutionary Dynamics and Phylogenetic Discordance of Green Plants

Author

Ting Yang, Sunil Kumar Sahu, Lingxiao Yang, Yang Liu, Weixue Mu, Xin Liu, Mikael Lenz Strube, Huan Liu, and Bojian Zhong

Subjects

plastid genome, phylogenetics, Viridiplantae, inverted repeats, gene blocks, Plant culture, SB1-1110

Abstract

The plastid organelle is essential for many vital cellular processes and the growth and development of plants. The availability of a large number of complete plastid genomes could be effectively utilized to understand the evolution of the plastid genomes and phylogenetic relationships among plants. We comprehensively analyzed the plastid genomes of Viridiplantae comprising 3,654 taxa from 298 families and 111 orders and compared the genomic organizations in their plastid genomic DNA among major clades, which include gene gain/loss, gene copy number, GC content, and gene blocks. We discovered that some important genes that exhibit similar functions likely formed gene blocks, such as the psb family presumably showing co-occurrence and forming gene blocks in Viridiplantae. The inverted repeats (IRs) in plastid genomes have doubled in size across land plants, and their GC content is substantially higher than non-IR genes. By employing three different data sets [all nucleotide positions (nt123), only the first and second codon positions (nt12), and amino acids (AA)], our phylogenomic analyses revealed Chlorokybales + Mesostigmatales as the earliest-branching lineage of streptophytes. Hornworts, mosses, and liverworts forming a monophylum were identified as the sister lineage of tracheophytes. Based on nt12 and AA data sets, monocots, Chloranthales and magnoliids are successive sister lineages to the eudicots + Ceratophyllales clade. The comprehensive taxon sampling and analysis of different data sets from plastid genomes recovered well-supported relationships of green plants, thereby contributing to resolving some long-standing uncertainties in the plant phylogeny.

Published

2022

30. Chromosome-Scale Genome of Masked Palm Civet (Paguma larvata) Shows Genomic Signatures of Its Biological Characteristics and Evolution

Author

Tianming Lan, Dongming Fang, Haimeng Li, Sunil Kumar Sahu, Qing Wang, Hao Yuan, Yixin Zhu, Zipeng Yang, Le Zhang, Shangchen Yang, Haorong Lu, Lei Han, Shaofang Zhang, Jieyao Yu, Yasser S. Mahmmod, Yanchun Xu, Yan Hua, Fengping He, Ziguo Yuan, and Huan Liu

Subjects

masked palm civet, genome assembly, omnivorous diet, immune system, SARS-CoV-2, genetic diversity, Genetics, QH426-470

Abstract

The masked palm civet (Paguma larvata) is a small carnivore with distinct biological characteristics, that likes an omnivorous diet and also serves as a vector of pathogens. Although this species is not an endangered animal, its population is reportedly declining. Since the severe acute respiratory syndrome (SARS) epidemic in 2003, the public has been particularly concerned about this species. Here, we present the first genome of the P. larvata, comprising 22 chromosomes assembled using single-tube long fragment read (stLFR) and Hi-C technologies. The genome length is 2.41 Gb with a scaffold N50 of 105.6 Mb. We identified the 107.13 Mb X chromosome and one 1.34 Mb Y-linked scaffold and validated them by resequencing 45 P. larvata individuals. We predicted 18,340 protein-coding genes, among which 18,333 genes were functionally annotated. Interestingly, several biological pathways related to immune defenses were found to be significantly expanded. Also, more than 40% of the enriched pathways on the positively selected genes (PSGs) were identified to be closely related to immunity and survival. These enriched gene families were inferred to be essential for the P. larvata for defense against the pathogens. However, we did not find a direct genomic basis for its adaptation to omnivorous diet despite multiple attempts of comparative genomic analysis. In addition, we evaluated the susceptibility of the P. larvata to the SARS-CoV-2 by screening the RNA expression of the ACE2 and TMPRSS2/TMPRSS4 genes in 16 organs. Finally, we explored the genome-wide heterozygosity and compared it with other animals to evaluate the population status of this species. Taken together, this chromosome-scale genome of the P. larvata provides a necessary resource and insights for understanding the genetic basis of its biological characteristics, evolution, and disease transmission control.

Published

2022

31. Metagenomic Analysis Reveals Microbial Community Structure and Metabolic Potential for Nitrogen Acquisition in the Oligotrophic Surface Water of the Indian Ocean

Author

Yayu Wang, Shuilin Liao, Yingbao Gai, Guilin Liu, Tao Jin, Huan Liu, Lone Gram, Mikael Lenz Strube, Guangyi Fan, Sunil Kumar Sahu, Shanshan Liu, Shuheng Gan, Zhangxian Xie, Lingfen Kong, Pengfan Zhang, Xin Liu, and Da-Zhi Wang

Subjects

microbe, Prochlorococcus, metagenome, nitrogen metabolism, Indian Ocean, Microbiology, QR1-502

Abstract

Despite being the world’s third largest ocean, the Indian Ocean is one of the least studied and understood with respect to microbial diversity as well as biogeochemical and ecological functions. In this study, we investigated the microbial community and its metabolic potential for nitrogen (N) acquisition in the oligotrophic surface waters of the Indian Ocean using a metagenomic approach. Proteobacteria and Cyanobacteria dominated the microbial community with an average 37.85 and 23.56% of relative abundance, respectively, followed by Bacteroidetes (3.73%), Actinobacteria (1.69%), Firmicutes (0.76%), Verrucomicrobia (0.36%), and Planctomycetes (0.31%). Overall, only 24.3% of functional genes were common among all sampling stations indicating a high level of gene diversity. However, the presence of 82.6% common KEGG Orthology (KOs) in all samples showed high functional redundancy across the Indian Ocean. Temperature, phosphate, silicate and pH were important environmental factors regulating the microbial distribution in the Indian Ocean. The cyanobacterial genus Prochlorococcus was abundant with an average 17.4% of relative abundance in the surface waters, and while 54 Prochlorococcus genomes were detected, 53 were grouped mainly within HLII clade. In total, 179 of 234 Prochlorococcus sequences extracted from the global ocean dataset were clustered into HL clades and exhibited less divergence, but 55 sequences of LL clades presented more divergence exhibiting different branch length. The genes encoding enzymes related to ammonia metabolism, such as urease, glutamate dehydrogenase, ammonia transporter, and nitrilase presented higher abundances than the genes involved in inorganic N assimilation in both microbial community and metagenomic Prochlorococcus population. Furthermore, genes associated with dissimilatory nitrate reduction, denitrification, nitrogen fixation, nitrification and anammox were absent in metagenome Prochlorococcus population, i.e., nitrogenase and nitrate reductase. Notably, the de novo biosynthesis pathways of six different amino acids were incomplete in the metagenomic Prochlorococcus population and Prochlorococcus genomes, suggesting compensatory uptake of these amino acids from the environment. These results reveal the features of the taxonomic and functional structure of the Indian Ocean microbiome and their adaptive strategies to ambient N deficiency in the oligotrophic ocean.

Published

2021

32. Deciphering the Microbial Taxonomy and Functionality of Two Diverse Mangrove Ecosystems and Their Potential Abilities To Produce Bioactive Compounds

Author

Shuilin Liao, Yayu Wang, Huan Liu, Guangyi Fan, Sunil Kumar Sahu, Tao Jin, Jianwei Chen, Pengfan Zhang, Lone Gram, Mikael Lenz Strube, Qiong Shi, Simon Ming Yuen Lee, and Xin Liu

Subjects

metagenomics, rhizosphere, biosynthesis gene clusters, antibiotic resistance genes, mangroves, Microbiology, QR1-502

Abstract

ABSTRACT Mangroves, as important and special ecosystems, create unique ecological environments for examining the microbial gene capacity and potential for producing bioactive compounds. However, little is known about the biogeochemical implications of microbiomes in mangrove ecosystems, especially the variations between pristine and anthropogenic mangroves. To elucidate this, we investigated the microbial taxonomic and functional shifts of the mangrove microbiomes and their potential for bioactive compounds in two different coastal mangrove ecosystems in southern China. A gene catalogue, including 87 million unique genes, was constructed, based on deep shotgun metagenomic sequencing. Differentially enriched bacterial and archaeal taxa between pristine mangroves (Guangxi) and anthropogenic mangroves (Shenzhen) were found. The Nitrospira and ammonia-oxidizing archaea, specifically, were more abundant in Shenzhen mangroves, while sulfate-reducing bacteria and methanogens were more abundant in Guangxi mangroves. The results of functional analysis were consistent with the taxonomic results, indicating that the Shenzhen mangrove microbiome has a higher abundance of genes involved in nitrogen metabolism while the Guangxi mangrove microbiome has a higher capacity for sulfur metabolism and methanogenesis. Biosynthetic gene clusters were identified in the metagenome data and in hundreds of de novo reconstructed nonredundant microbial genomes, respectively. Notably, we found different biosynthetic potential in different taxa, and we identified three high quality and novel Acidobacteria genomes with a large number of BGCs. In total, 67,278 unique genes were annotated with antibiotic resistance, indicating the prevalence and persistence in multidrug-resistant genes in the mangrove microbiome. IMPORTANCE This study comprehensively described the taxonomy and functionality of mangrove microbiomes, including their capacity for secondary metabolite biosynthesis and their ability to resist antibiotics. The microbial taxonomic and functional characteristics differed between geographical locations, corresponding to the environmental condition of two diverse mangrove regions. A large number of microbial biosynthetic gene clusters encoding novel bioactivities were found, and this can serve as a valuable resource to guide novel bioactive compound discovery for potential clinical uses.

Published

2020

33. Comparative transcriptomic analyses of chlorogenic acid and luteolosides biosynthesis pathways at different flowering stages of diploid and tetraploid Lonicera japonica

Author

Hongli Wang, Yanqun Li, Sibo Wang, Dexin Kong, Sunil Kumar Sahu, Mei Bai, Haoyuan Li, Linzhou Li, Yan Xu, Hongping Liang, Huan Liu, and Hong Wu

Subjects

Lonicera japonica, De novo transcriptome assembly, Chlorogenic acid, Luteolosides, Traditional Chinese medicine, Flower development, Medicine, Biology (General), QH301-705.5

Abstract

The Flos Lonicerae Japonicae (FLJ), Lonicera japonica Thunb, belonging to the Caprifoliaceae family, is an economically important plant that is highly utilized in traditional Chinese medicine as well as in Japanese medicine. The flowers of these plants are rich in chlorogenic acid (CGA) and luteoloside. Our previous study revealed that tetraploid L. japonica has higher fresh/dry weight, phenolic acids and flavonoids contents than those of diploid plants. However, why tetraploid L. japonica can yield higher CGA and luteolosides than that in diploid and what is the difference in the molecular regulatory mechanism of these pathways between diploid and tetraploids remained unclear. Therefore, in the present study, we performed comprehensive transcriptome analyses of different flowering stages of diploid and tetraploid L. japonica. The CGA content of tetraploid was found higher than that of diploid at all the growth stages. While the luteoloside content of diploid was higher than that of tetraploid at S4 and S6 growth stages. We obtained a high-quality transcriptome assembly (N50 = 2,055 bp; Average length = 1,331 bp) compared to earlier studies. Differential expression analysis revealed that several important genes involving in plant hormone signal transduction, carbon metabolism, starch/sucrose metabolism and plant-pathogen interaction were upregulated in tetraploid compared with the diploid L. japonica, reflecting the higher adaptability and resistance of tetraploid species. Furthermore, by associating the phenotypic data and gene expression profiles, we were able to characterize the potential molecular regulatory mechanism of important biosynthetic pathways at different flowering stages. Overall, our work provides a foundation for further research on these important secondary metabolite pathways and their implications in traditional Chinese/Japanese medicine.

Published

2020

34. Deciphering the Composition and Functional Profile of the Microbial Communities in Chinese Moutai Liquor Starters

Author

Shu-Heng Gan, Fan Yang, Sunil Kumar Sahu, Ru-Ye Luo, Shui-Lin Liao, He-Yu Wang, Tao Jin, Li Wang, Peng-Fan Zhang, Xin Liu, Jin Xu, Jing Xu, Ya-Yu Wang, and Huan Liu

Subjects

Moutai liquor, fermentation starter, metagenomics, 16S rRNA gene, OTU, Daqu, Microbiology, QR1-502

Abstract

Moutai is a world-famous traditional Chinese liquor with complex taste and aroma, which are considered to be strongly influenced by the quality of fermentation starters (Daqu). However, the role of microbial communities in the starters has not been fully understood. In this study, we revealed the microbial composition of 185 Moutai starter samples, covering three different types of starters across immature and mature phases, and functional gene composition of mature starter microbiome. Our results showed that microbial composition patterns of immature starters varied, but they eventually were similar and steady when they became mature starters, after half-year storage and subsequent mixing. To help identify two types of immature starters, we selected seven operational taxonomic unit (OTU) markers by leave-one-out cross validation (LOOCV) and an OTU classified as Saccharopolyspora was the most decisive one. For mature starters, we identified a total of 16 core OTUs, one of which annotated as Bacillus was found positively associated with saccharifying power. We also identified the functional gene and microbial composition in starch and cellulose hydrolysis pathways. Microbes with higher abundances of alpha-glucosidase, alpha-amylase, and glucoamylase probably contributed to high saccharifying power. Overall, this study reveals the features of Moutai starter microbial communities in different phases and improves understanding of the relationships between microbiota and functional properties of the starters.

Published

2019

35. Niclosamide Blocks Rice Leaf Blight by Inhibiting Biofilm Formation of Xanthomonas oryzae

Author

Sunil Kumar Sahu, Ping Zheng, and Nan Yao

Subjects

bacterial blight disease, biofilm, extracellular polysaccharide, niclosamide, plant–pathogen interaction, rice, Plant culture, SB1-1110

Abstract

Rice (Oryza sativa) is the leading source of nutrition for more than half of the world’s population, and by far it is the most important commercial food crop. But, its growth and production are significantly hampered by the bacterial pathogen Xanthomonas oryzae pv. oryzae (Xoo) which causes leaf blight disease. Earlier studies have reported the antibacterial ability of FDA-approved niclosamide drug against Xoo. However, the underlying mechanism by which niclosamide blocks the growth of Xoo remained elusive. In the present study, by employing the microbiological, microscopical, molecular, bioinformatics and analytical tools we found that niclosamide can directly inhibit the growth of the Xoo by hampering the biofilm formation and the production of xanthomonadin and exopolysaccharide substances (EPS) required for relentless growth and virulence of Xoo. Interestingly, niclosamide was found to specifically suppress the growth of Xoo without affecting other bacteria like Escherichia coli. Our electron microscopic observations disclosed that niclosamide disrupts the membrane permeability of Xoo and causes the release of intracellular components. Similarly, the molecular docking analysis disclosed the molecular interaction of niclosamide with the biofilm, virulence and quorum sensing related proteins, which was further substantiated by relative gene expression analysis where niclosamide was found to significantly downregulate the expression of these key regulatory genes. In addition, considerable changes in chemical structures were detected by Fourier Transform Infrared Spectroscopy (FTIR) in response to niclosamide treatment. Overall, our findings advocate the utilization of niclosamide as a safe and potent alternative antibacterial compound to control bacterial blight disease in rice.

Published

2018

36. The complete chloroplast genome of Tetraselmis desikacharyi (Chlorodendrophyceae) and phylogenetic analysis

Author

Linzhou Li, Haoyuan Li, Sunil Kumar Sahu, Yan Xu, Hongli Wang, Hongping Liang, and Sibo Wang

Subjects

tetraselmis, chlorodendrophyceae, chloroplast genome, phylogenetic, aquaculture, Genetics, QH426-470

Abstract

Tetraselmis desikacharyi is a marine alga, known as an important plankton for aquaculture as a feed organism. However, the genomic study on this class is rare. Here, we present a complete chloroplast genome of T. desikacharyi, belonging to Chlorodendrophyceae with a full length of 149,934 bp, characterized by a very small single-copy (SSC) region without any genes and a large inverted repeat (IR) region. A maximum-likelihood (ML) phylogenetic analysis was performed using three kinds of data comprising 50 protein-coding genes, which placed the Chlorodendrophyceae as a deep-diverging lineage of the core Chlorophyta.

Published

2019

37. Fugacium Spliced Leader Genes Identified from Stranded RNA-Seq Datasets

Author

Yue Song, Bahareh Zaheri, Min Liu, Sunil Kumar Sahu, Huan Liu, Wenbin Chen, Bo Song, and David Morse

Subjects

dinoflagellates, Symbiodinium, Fugacium, trans-splicing, spliced leader, Biology (General), QH301-705.5

Abstract

Trans-splicing mechanisms have been documented in many lineages that are widely distributed phylogenetically, including dinoflagellates. The spliced leader (SL) sequence itself is conserved in dinoflagellates, although its gene sequences and arrangements have diversified within or across different species. In this study, we present 18 Fugacium kawagutii SL genes identified from stranded RNA-seq reads. These genes typically have a single SL but can contain several partial SLs with lengths ranging from 103 to 292 bp. Unexpectedly, we find the SL gene transcripts contain sequences upstream of the canonical SL, suggesting that generation of mature transcripts will require additional modifications following trans-splicing. We have also identified 13 SL-like genes whose expression levels and length are comparable to Dino-SL genes. Lastly, introns in these genes were identified and a new site for Sm-protein binding was proposed. Overall, this study provides a strategy for fast identification of SL genes and identifies new sequences of F. kawagutii SL genes to supplement our understanding of trans-splicing.

Published

2019

38. The Distribution of Tryptophan-Dependent Indole-3-Acetic Acid Synthesis Pathways in Bacteria Unraveled by Large-Scale Genomic Analysis

Author

Pengfan Zhang, Tao Jin, Sunil Kumar Sahu, Jin Xu, Qiong Shi, Huan Liu, and Yayu Wang

Subjects

indole-3-acetic acid, bacteria, pathways, genomes, metagenomes, Organic chemistry, QD241-441

Abstract

Bacterial indole-3-acetic acid (IAA), an effector molecule in microbial physiology, plays an important role in plant growth-promotion. Here, we comprehensively analyzed about 7282 prokaryotic genomes representing diverse bacterial phyla, combined with root-associated metagenomic data to unravel the distribution of tryptophan-dependent IAA synthesis pathways and to quantify the IAA synthesis-related genes in the plant root environments. We found that 82.2% of the analyzed bacterial genomes were potentially capable of synthesizing IAA from tryptophan (Trp) or intermediates. Interestingly, several phylogenetically diverse bacteria showed a preferential tendency to utilize different pathways and tryptamine and indole-3-pyruvate pathways are most prevalent in bacteria. About 45.3% of the studied genomes displayed multiple coexisting pathways, constituting complex IAA synthesis systems. Furthermore, root-associated metagenomic analyses revealed that rhizobacteria mainly synthesize IAA via indole-3-acetamide (IAM) and tryptamine (TMP) pathways and might possess stronger IAA synthesis abilities than bacteria colonizing other environments. The obtained results refurbished our understanding of bacterial IAA synthesis pathways and provided a faster and less labor-intensive alternative to physiological screening based on genome collections. The better understanding of IAA synthesis among bacterial communities could maximize the utilization of bacterial IAA to augment the crop growth and physiological function.

Published

2019

39. Bilingual Adaptation of Monolingual Foundation Models.

Author

Gurpreet Gosal, Yishi Xu, Gokul Ramakrishnan, Rituraj Joshi, Avraham Sheinin, Zhiming Chen, Biswajit Mishra, Natalia Vassilieva, Joel Hestness, Neha Sengupta, Sunil Kumar Sahu, Bokang Jia, Onkar Pandit, Satheesh Katipomu, Samta Kamboj, Samujjwal Ghosh, Rahul Pal, Parvez Mullah, Soundar Doraiswamy, Mohamed El Karim Chami, and Preslav Nakov

Published

2024

40. DENTRA: Denoising and Translation Pre-training for Multilingual Machine Translation.

Author

Samta Kamboj, Sunil Kumar Sahu, and Neha Sengupta

Published

2022

41. Jais and Jais-chat: Arabic-Centric Foundation and Instruction-Tuned Open Generative Large Language Models.

Author

Neha Sengupta, Sunil Kumar Sahu, Bokang Jia, Satheesh Katipomu, Haonan Li 0002, Fajri Koto, Osama Mohammed Afzal, Samta Kamboj, Onkar Pandit, Rahul Pal, Lalit Pradhan, Zain Muhammad Mujahid, Massa Baali, Alham Fikri Aji, Zhengzhong Liu 0001, Andy Hock, Andrew Feldman, Jonathan Lee, Andrew Jackson, Preslav Nakov, Timothy Baldwin, and Eric P. Xing

Published

2023

42. Autoencoding Keyword Correlation Graph for Document Clustering.

Author

Billy Chiu, Sunil Kumar Sahu, Derek Thomas, Neha Sengupta, and Mohammady Mahdy

Published

2020

43. Relation Extraction with Self-determined Graph Convolutional Network.

Author

Sunil Kumar Sahu, Derek Thomas, Billy Chiu, Neha Sengupta, and Mohammady Mahdy

Published

2020

44. Attending to Inter-sentential Features in Neural Text Classification.

Author

Billy Chiu, Sunil Kumar Sahu, Neha Sengupta, Derek Thomas, and Mohammady Mahdy

Published

2020

45. Large-scale genome sequencing of giant pandas improves the understanding of population structure and future conservation initiatives.

Author

Tianming Lan, Shangchen Yang, Haimeng Li, Yi Zhang, Rengui Li, Sunil Kumar Sahu, Wenwen Deng, Boyang Liu, Minhui Shi, Shiqing Wang, Hanyu Du, Xiaoyu Huang, Haorong Lu, Shanlin Liu, Tao Deng, Jin Chen, Qing Wang, Lei Han, Yajie Zhou, and Qiye Li

Subjects

GIANT panda, GENETIC load, CONSERVATION genetics, ENDANGERED species, POPULATION dynamics

Abstract

The extinction risk of the giant panda has been demoted from "endangered" to "vulnerable" on the International Union for Conservation of Nature Red List, but its habitat is more fragmented than ever before, resulting in 33 isolated giant panda populations according to the fourth national survey released by the Chinese government. Further comprehensive investigations of the genetic background and in-depth assessments of the conservation status of wild populations are still necessary and urgently needed. Here, we sequenced the genomes of 612 giant pandas with an average depth of ~26x and generated a high-resolution map of genomic variation with more than 20 million variants covering wild individuals from six mountain ranges and captive representatives in China. We identified distinct genetic clusters within the Minshan population by performing a fine-grained genetic structure. The estimation of inbreeding and genetic load associated with historical population dynamics suggested that future conservation efforts should pay special attention to the Qinling and Liangshan populations. Releasing captive individuals with a genetic background similar to the recipient population appears to be an advantageous genetic rescue strategy for recovering the wild giant panda populations, as this approach introduces fewer deleterious mutations into the wild population than mating with differentiated lineages. These findings emphasize the superiority of large-scale population genomics to provide precise guidelines for future conservation of the giant panda. [ABSTRACT FROM AUTHOR]

Published

2024

46. Inter-sentence Relation Extraction with Document-level Graph Convolutional Neural Network.

Author

Sunil Kumar Sahu, Fenia Christopoulou, Makoto Miwa, and Sophia Ananiadou

Published

2019

47. Adverse drug events and medication relation extraction in electronic health records with ensemble deep learning methods.

Author

Fenia Christopoulou, Thy Thy Tran, Sunil Kumar Sahu, Makoto Miwa, and Sophia Ananiadou

Published

2020

48. Biomedical Event Trigger Identification Using Bidirectional Recurrent Neural Network Based Models.

Author

Patchigolla V. S. S. Rahul, Sunil Kumar Sahu, and Ashish Anand

Published

2017

49. Investigating how well contextual features are captured by bi-directional recurrent neural network models.

Author

Kushal Chawla, Sunil Kumar Sahu, and Ashish Anand

Published

2017

50. Learning local and global contexts using a convolutional recurrent network model for relation classification in biomedical text.

Author

Desh Raj, Sunil Kumar Sahu, and Ashish Anand

Published

2017