Your search keyword '"Evolutionary relationship"' showing total 413 results

1. Whole-genome sequencing analysis of widely disseminated infection caused by ST2631 methicillin-sensitive Staphylococcusaureus

Author

Zhang, Weili and Xu, Hao

Published

2024

2. ZF-HD gene family in rapeseed (Brassica napus L.): genome-wide identification, phylogeny, evolutionary expansion and expression analyses.

Author

Xu, Xinrui, Zhou, Hui, Yang, Qiaohui, Yang, Yuyao, and Pu, Xiaobin

Subjects

*GENE expression, *TRANSCRIPTION factors, *PLANT genetics, *LIFE sciences, *BOTANY, *RAPESEED

Abstract

Background: The zinc finger-homeodomain (ZF-HD) transcription factor family is widely involved in regulating plant growth and fruit filling, as well as responding to various abiotic stress. Rapeseed (Brassica napus L.), the second largest oil-producing crop in the world, is an annual or biennial herb of Brassica in Cruciferae. However, there is currently no systematic study on the evolutionary relationship and stress response of ZF-HD transcription factors in rapeseed. Results: In this study, 60 ZF-HD genes in B. napus (BnZHDs) were identified and named based on the chromosomal location. The evolutionary relationships, classifications, gene structures, motif compositions, chromosome localization, and gene replication events in these BnZHD genes were systematically analyzed. These 60 BnZHD members were divided into seven groups. According to the phylogenetic tree and repetitive events, subfamilies MIF, and V may have undergone stronger expansions during the evolutionary process. Interestingly, segmental duplications may have a more important contribution, which distinguishes them from other dicotyledon plants. To further investigate the evolutionary relationship of the ZF-HD family, we constructed eleven comparative genomic maps of homologous genes between rapeseed and different representative monocotyledonous and dicotyledonous plants. Finally, the gene expression pattern of 15 BnZHD genes from different subfamilies under different tissues, fruit developmental stages, and different abiotic stress were analyzed. The expression profile from real-time quantitative PCR analysis showed different expression patterns of BnZHD gene in B. napus. We found that certain BnZHD genes are preferentially expressed in specific tissues of B. napus, while most genes are expressed in multiple tissues. For example, BnZHD37, BnZHD53, and BnZHD55 may be sensitive to different hormones. Under different stresses, the expression of BnZHD3, BnZHD4, BnZHD7, BnZHD38, BnZD45, and BnZHD53 significantly increased in roots, stems, and leaves within 24 h. These genes may play important roles in the growth, development, and environmental adaptation of rapeseed. Conclusions: These findings provide a basis for a comprehensive understanding of the ZF-HD family in rapeseed, which will provide information for further research on the functional characteristics of the BnZHD genes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Non-anthropocentrism as Participation alongside Perspective: Indigenous Philosophers and Dynamics of Inter-species Kinship

Author

Kat Wehrheim

Subjects

american pragmatism, environmental ethics, evolutionary relationship, indigenous philosophies, inter-species kinship, non-anthropocentrism, nonpropositional knowledge, participationalist paradigm, performative knowledge processes, phenomenology, Ethics, BJ1-1725, Social Sciences

Abstract

Contemporary Western alternatives to anthropocentrism – such as sentientism or biocentrism – rely on the scope of human knowledge exceeding its realistic limitations. As a corollary, although these models continue to be helpful in discerning ethical conduct, additional resources are going to be required. Initially arguing from within a representationalist paradigm, this paper shows that besides our inability reliably to assess the capacities of non-human species, we have also yet to learn what other factors, besides capacity, may be relevant to a non-human’s moral considerability. Subsequently arguing from within a participationalist paradigm, this paper shows that we cannot preconceive all we may be in the process of co-creating. This leaves any model grounded solely in the already existing open to finding itself incapable of relating to the new. It is in the co-creativity of the latter that a potential starting point for resolution begins to emerge: drawing upon Indigenous conceptions of performative knowledge processes in non-objectifying relationality, this paper shows dynamics of inter-species kinship, at times partially traceable through evolutionary relationship, to be a source of non-propositional learning relevant to ethical concerns.

Published

2024

4. Next Generation Sequencing and Structural Identification of retinoblastoma data Analysis.

Author

Venkateswaran, T. V. and Kumari, Uma

Subjects

*NUCLEOTIDE sequencing, *RETINOBLASTOMA protein, *EYE cancer, *GENE expression, *PROTEIN structure, *PAPILLOMAVIRUSES

Abstract

The most common type of eye cancer in youngsters is called retinoblastoma. Four categories are used to categorise the disease. One classification is based on whether the condition affects one eye or both; these are referred to as unilateral and bilateral, respectively. Based on gene expression analysis, retinoblastomas can be classified into two types. Group 1 exhibits an invasive tumour pattern together with a variety of different types of retinal cells. Group 2 exhibits a distinct cone photoreceptor expression profile. RBBP9 is a protein that is involved in the human cancer process and is a binding partner of retinoblastoma susceptibility protein (Rb). LxCxE is the Rb binding motif found in the sequence of RBBP9. Yeast two-hybrid experiments revealed that RBBP9 interacts with Rb. RBBP9 is 21 kD in size, and its crystal structure has been investigated. There is evidence linking RBBP9 to pancreatic cancer. Pancreatic cancer cannot develop without the protein's serine hydrolase activity. Serine hydrolase activity works by phosphorylating Smad2/3 less, which in turn suppresses TGF-β antiproliferative signalling. Our goals in this study are to visualise the protein structure in PyMol, determine the nature of the protein (whether hydrophobic or hydrophilic), use the multiple alignment tool COBALT to check for protein conservation across other species, identify both chains (A & B) using PyMol, examine the interaction between 2QS9 and 7OEX (a protein that is very similar to 2QS9) in PyMol, perform multiple sequence alignment using clustal omega to determine the nature of the protein, and plot the Ramachandran plot to visualise energetically allowed region in BioPython and Saves server and molecular docking of 2QS9 and Topotecan using CB-DOCK2. [ABSTRACT FROM AUTHOR]

Published

2024

5. Endemic Radiation of African Moonfish, Selene dorsalis (Gill 1863), in the Eastern Atlantic: Mitogenomic Characterization and Phylogenetic Implications of Carangids (Teleostei: Carangiformes).

Author

Ewusi, Emmanuel Ofosu Mireku, Lee, Soo Rin, Kim, Ah Ran, Go, Yunji, Htoo, Hsu, Chung, Sangdeok, Amin, Muhammad Hilman Fu'adil, Andriyono, Sapto, Kim, Hyun-Woo, and Kundu, Shantanu

Subjects

*MITOCHONDRIAL DNA, *BASE pairs, *CYTOCHROME oxidase, *CONSERVED sequences (Genetics), *OCEAN gyres, *TRANSFER RNA

Abstract

This study offers an in-depth analysis of the mitochondrial genome of Selene dorsalis (Gill 1863), a species native to the Eastern Atlantic Ocean. The circular mitochondrial DNA molecule measures 16,541 base pairs and comprises 13 protein-coding genes (PCGs), 22 transfer RNA (tRNA) genes, two ribosomal RNA genes, and a control region (CR). The nucleotide composition exhibits a notable adenine-thymine (AT) bias, accounting for 53.13%, which aligns with other species in the Carangidae family. Most PCGs initiate with the ATG codon, with the exception of Cytochrome C oxidase subunit I, which starts with GTG. Analysis of relative synonymous codon usage reveals that leucine and serine are the most prevalent amino acids in the mitochondrial genome of S. dorsalis and its congeners (S. vomer and S. setapinnis). All tRNAs display the typical cloverleaf structure, though tRNA Serine (S1) lacks a dihydrouracil arm. Pairwise comparisons of synonymous and nonsynonymous substitutions for all PCGs yielded values below '1', indicating strong purifying selection. The CR spans 847 bp, representing 5.12% of the mitochondrial genome, and is characterized by high AT content (62.81%). It is situated between tRNA-Pro (TGG) and tRNA-Phe (GAA). The CR contains conserved sequence blocks, with CSB-1 being the longest at 22 bp and CSB-D the shortest at 18 bp. Phylogenetic analysis, using Bayesian and Maximum-likelihood trees constructed from concatenated PCGs across 72 species, successfully differentiates S. dorsalis from other carangids. This study also explores how ocean currents and gyres might influence lineage diversification and parapatric speciation of Selene species between the Atlantic and Pacific Oceans. These results highlight the importance of the mitochondrial genome in elucidating the structural organization and evolutionary dynamics of S. dorsalis and its relatives within marine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

6. Genetic Insights and Phylogenetic Relationships of Lycorma delicatula (Hemiptera: Fulgoridae, 1845) Revealed Through Mitochondrial Genome Sequence Analysis.

Author

Shi CHENG, Mingyu LI, Yuni WANG, and Yajun LU

Subjects

*MITOCHONDRIAL DNA, *SPOTTED lanternfly, *GENETIC distance, *AGRICULTURAL pests, POPULATION of China

Abstract

Lycorma delicatula, a phytophagous agricultural pest, is invading various regions across the globe. We employed the mitochondrial genome and mitochondrial marker NADH dehydrogenase subunit 2 (ND2) to elucidate the mitochondrial genome characterization and phylogenetic relationships. The mitochondrial genome revealed a circular mitochondrial structure with a length of 16 138 bp encompassing 37 genes and a GC% of 23.41%. Codon usage preferences exhibited significant variation, with A or U being the most preferred bases in the third codon position. Most tRNAs displayed a typical cloverleaf structure, while a few exhibited base mismatches, primarily in G-U pairs. Phylogenetic analysis using the ND2 genes indicated that the population in northwest China could be tightly near together, with a genetic distance ranging from 0 to 0.01. Speculations arising from the mitochondrial genome analysis suggest that species from northern China were closer relatives to invaders from other regions, Lycorma meliae emerged as a close relative of Lycorma delicatula among the Hemipterans. Collectively, our findings enhance the understanding of phylogenetic relationships and complement the mitochondrial genomic information of Lycorma delicatula, thereby contributing valuable data for subsequent studies on this pest species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Comprehensive genomic analysis of single MYB histone (SMH) genes in Helianthus annuus and Arabidopsis thaliana: Evolutionary insights and functional divergence

Author

Narasimhaiah, Ramakrishnaiah Thippenahalli and Sudarshan, Surendra Adagur

Published

2024

8. Morphological and phylogenetic insights into Berberis species: a tool for species identification and conservation

Author

Azim, Rizwan, Awan, Shahid Iqbal, Tahir, Majid Mahmood, Malik, Faisal Anwar, Alwahibi, Mona S., Ali, M. Ajmal, Elshiki, Mohamed S., and Kamal, Asif

Published

2024

9. Identification of Conserved Pathways in Bacillus Strains Known for Plant Growth-Promoting Behavior Using a Multifaceted Computational Approach.

Author

Das, Vandana Apurva, Gautam, Budhayash, Yadav, Pramod Kumar, and Singh, Satendra

Subjects

BACILLUS (Bacteria), BIOTRANSFORMATION (Metabolism), BACILLUS subtilis, PLANT-microbe relationships, BACILLUS amyloliquefaciens, SUSTAINABLE agriculture

Abstract

Bacillus strains have long been recognized for their beneficial interactions with plants, enhancing growth, nutrient uptake, and stress resistance. Understanding their molecular mechanisms and plant-microbe interactions is crucial for harnessing their potential in sustainable agriculture. Here we used ten strains from the 5 Bacillus species namely Bacillus velezensis, Bacillus subtilis, Bacillus atrophaeus, Bacillus altitudinis and Bacillus amylofaciens, which are previously reported for PGPR activity. A comparative analysis of these strains was performed to determine their evolutionary relationships, which revealed that Bacillus velezensis and Bacillus amyloliquefaciens are closely related based on underlying genetic and proteomic similarities. Bacillus altitudinis strain LZP02 was the most distantly related to all the other selected strains. On the other hand, Bacillus atrophaeus strains GQJK17 and CNY01 are shown to be closely related to each other. Mauve alignment was performed to determine the genetic relationships between these strains. The LZP02 strain exhibited several unique inversions harboring important genes, such as betB, ftsW, and rodA, which are important for bacterial survival. Proteomic analysis highlighted important pathways that were conserved across these strains, including xenobiotic biodegradation and metabolism, biosynthesis of polyketides and nonribosomal pathways, and biosynthesis of secondary metabolites, all of which have been shown to be involved in plant growth promotion. [ABSTRACT FROM AUTHOR]

Published

2024

10. Responses of Three Pedicularis Species to Geological and Climatic Changes in the Qinling Mountains and Adjacent Areas in East Asia.

Author

Zhang, Qijing, Lu, Zhaoping, Guo, Mingchen, Kang, Jia, Li, Jia, He, Xiaojing, Wu, Jiayi, Liu, Ruihang, Dang, Jiaxin, and Li, Zhonghu

Subjects

CLIMATE change, MIOCENE Epoch, HOLOCENE Epoch, INTERGLACIALS, HUMAN origins, LAST Glacial Maximum, ECOLOGICAL niche

Abstract

The Qinling Mountains in East Asia serve as the geographical boundary between the north and south of China and are also indicative of climatic differences, resulting in rich ecological and species diversity. However, few studies have focused on the responses of plants to geological and climatic changes in the Qinling Mountains and adjacent regions. Therefore, we investigated the evolutionary origins and phylogenetic relationships of three Pedicularis species in there to provide molecular evidence for the origin and evolution of plant species. Ecological niche modeling was used to predict the geographic distributions of three Pedicularis species during the last interglacial period, the last glacial maximum period, and current and future periods, respectively. Furthermore, the distribution patterns of climate fluctuations and the niche dynamics framework were used to assess the equivalence or difference of niches among three Pedicularis species. The results revealed that the divergence of three Pedicularis species took place in the Miocene and Holocene periods, which was significantly associated with the large-scale uplifts of the Qinling Mountains and adjacent regions. In addition, the geographic distributions of three Pedicularis species have undergone a northward migration from the past to the future. The most important environmental variables affecting the geographic distributions of species were the mean diurnal range and annual mean temperature range. The niche divergence analysis suggested that the three Pedicularis species have similar ecological niches. Among them, P. giraldiana showed the highest niche breadth, covering nearly all of the climatic niche spaces of P. dissecta and P. bicolor. In summary, this study provides novel insights into the divergence and origins of three Pedicularis species and their responses to climate and geological changes in the Qinling Mountains and adjacent regions. The findings have also provided new perspectives for the conservation and management of Pedicularis species. [ABSTRACT FROM AUTHOR]

Published

2024

11. Multichromosomal mitochondrial genome of Punica granatum: comparative evolutionary analysis and gene transformation from chloroplast genomes

Author

Lijuan Feng, Zenghui Wang, Chuanzeng Wang, Xuemei Yang, Mengmeng An, and Yanlei Yin

Subjects

Punica granatum, Mitogenome, Multi-chromosomal structure, Evolutionary relationship, Intracellular gene transfer, Botany, QK1-989

Abstract

Abstract Background Punica granatum is a fundamentally important fruit tree that has important economic, medicinal and ornamental properties. At present, there are few reports on the mitochondrial genome of pomegranate. Hence, in this study the P. granatum mitogenome was sequenced and assembled to further understanding of organization, variation, and evolution of mitogenomes of this tree species. Results The genome structure was multi-chromosomes with seven circular contigs, measuring 382,774 bp in length with a 45.91% GC content. It contained 74 genes, including 46 protein-coding genes, 25 tRNA genes, and three rRNA genes. There were 188 pairs of dispersed repeats with lengths of 30 or greater, primarily consisting of reverse complementary repeats. The mitogenome analysis identified 114SSRs and 466 RNA editing sites. Analyses of codon usage, nucleotide diversity and gene migration from chloroplast to mitochondrial were also conducted. The collinear and comparative analysis of mitochondrial structures between P. granatum and its proximal species indicated that P. granatum ‘Taishanhong’ was closely related to P. granatum ‘Qingpitian’ and Lagerstroemia indica. Phylogenetic examination based on the mitogenome also confirmed the evolutionary relationship. Conclusion The results offered crucial information on the evolutionary biology of pomegranate and highlighted ways to promote the utilization of the species’ germplasm.

Published

2023

12. Genome-Wide Analysis of the Polygalacturonase Gene Family Sheds Light on the Characteristics, Evolutionary History, and Putative Function of Akebia trifoliata.

Author

Yi, Xiaoxiao, Chen, Wei, Guan, Ju, Zhu, Jun, Zhang, Qiuyi, Yang, Huai, Yang, Hao, Zhong, Shengfu, Chen, Chen, Tan, Feiquan, Ren, Tianheng, and Luo, Peigao

Subjects

*POLYGALACTURONASE, *GENE families, *DURIAN, *PLANT enzymes, *KIWIFRUIT, *PECTINS

Abstract

Polygalacturonase (PG) is one of the largest families of hydrolytic enzymes in plants. It is involved in the breakdown of pectin in the plant cell wall and even contributes to peel cracks. Here, we characterize PGs and outline their expression profiles using the available reference genome and transcriptome of Akebia trifoliata. The average length and exon number of the 47 identified AktPGs, unevenly assigned on 14 chromosomes and two unassembled contigs, were 5399 bp and 7, respectively. The phylogenetic tree of 191 PGs, including 47, 57, 51, and 36 from A. trifoliata, Durio zibethinus, Actinidia chinensis, and Vitis vinifera, respectively, showed that AktPGs were distributed in all groups except group G and that 10 AktPGs in group E were older, while the remaining 37 AktPGs were younger. Evolutionarily, all AktPGs generally experienced whole-genome duplication (WGD)/segmental repeats and purifying selection. Additionally, the origin of conserved domain III was possibly associated with a histidine residue (H) substitute in motif 8. The results of both the phylogenetic tree and expression profiling indicated that five AktPGs, especially AktPG25, could be associated with the cracking process. Detailed information and data on the PG family are beneficial for further study of the postharvest biology of A. trifoliata. [ABSTRACT FROM AUTHOR]

Published

2023

13. Comparative chloroplast genomes provided insights into the evolution and species identification on the Datureae plants.

Author

He Su, Xiaoxia Ding, Baosheng Liao, Danchun Zhang, Juan Huang, Junqi Bai, Subing Xu, Jing Zhang, Wen Xu, Xiaohui Qiu, Lu Gong, and Zhihai Huang

Subjects

CHLOROPLAST DNA, PLANT identification, MICROSATELLITE repeats, COMPARATIVE genomics, TANDEM repeats, SPECIES, CHLOROPLAST membranes, GERMPLASM

Abstract

Generally, chloroplast genomes of angiosperms are always highly conserved but carry a certain number of variation among species. In this study, chloroplast genomes of 13 species from Datureae tribe that are of importance both in ornamental gardening and medicinal usage were studied. In addition, seven chloroplast genomes from Datureae together with two from Solanaceae species retrieved from the National Center for Biotechnology Information (NCBI) were integrated into this study. The chloroplast genomes ranged in size from 154,686 to 155,979 and from 155,497 to 155,919 bp for species of Datura and Brugmansia, respectively. As to Datura and Brugmansia, a total of 128 and 132 genes were identified, in which 83 and 87 protein coding genes were identified, respectively; Furthermore, 37 tRNA genes and 8 rRNA genes were both identified in Datura and Brugmansia. Repeats analysis indicated that the number and type varied among species for Simple sequence repeat (SSR), long repeats, and tandem repeats ranged in number from 53 to 59, 98 to 99, and 22 to 30, respectively. Phylogenetic analysis based on the plastid genomes supported the monophyletic relationship among Datura and Brugmansia and Trompettia, and a refined phylogenic relationships among each individual was resolved. In addition, a species-specific marker was designed based on variation spot that resulted from a comparative analysis of chloroplast genomes and verified as effective maker for identification of D. stramonium and D. stramonium var. inermis. Interestingly, we found that 31 genes were likely to be under positive selection, including genes encoding ATP protein subunits, photosystem protein subunit, ribosome protein subunits, NAD(P)H dehydrogenase complex subunits, and clpP, petB, rbcL, rpoCl, ycf4, and cemA genes. These genesmay function as key roles in the adaption to diverse environment during evolution. The diversification of Datureae members was dated back to the late Oligocene periods. These chloroplast genomes are useful genetic resources for taxonomy, phylogeny, and evolution for Datureae. [ABSTRACT FROM AUTHOR]

Published

2023

14. Identification of Conserved Pathways in Bacillus Strains Known for Plant Growth-Promoting Behavior Using a Multifaceted Computational Approach

Author

Vandana Apurva Das, Budhayash Gautam, Pramod Kumar Yadav, and Satendra Singh

Subjects

plant growth promotion (PGP), evolutionary relationship, comparative genomic analysis, comparative proteomic analysis, gene inversion, pathway class, Agriculture (General), S1-972

Abstract

Bacillus strains have long been recognized for their beneficial interactions with plants, enhancing growth, nutrient uptake, and stress resistance. Understanding their molecular mechanisms and plant-microbe interactions is crucial for harnessing their potential in sustainable agriculture. Here we used ten strains from the 5 Bacillus species namely Bacillus velezensis, Bacillus subtilis, Bacillus atrophaeus, Bacillus altitudinis and Bacillus amylofaciens, which are previously reported for PGPR activity. A comparative analysis of these strains was performed to determine their evolutionary relationships, which revealed that Bacillus velezensis and Bacillus amyloliquefaciens are closely related based on underlying genetic and proteomic similarities. Bacillus altitudinis strain LZP02 was the most distantly related to all the other selected strains. On the other hand, Bacillus atrophaeus strains GQJK17 and CNY01 are shown to be closely related to each other. Mauve alignment was performed to determine the genetic relationships between these strains. The LZP02 strain exhibited several unique inversions harboring important genes, such as betB, ftsW, and rodA, which are important for bacterial survival. Proteomic analysis highlighted important pathways that were conserved across these strains, including xenobiotic biodegradation and metabolism, biosynthesis of polyketides and nonribosomal pathways, and biosynthesis of secondary metabolites, all of which have been shown to be involved in plant growth promotion.

Published

2024

15. Multichromosomal mitochondrial genome of Punica granatum: comparative evolutionary analysis and gene transformation from chloroplast genomes.

Author

Feng, Lijuan, Wang, Zenghui, Wang, Chuanzeng, Yang, Xuemei, An, Mengmeng, and Yin, Yanlei

Subjects

CHLOROPLAST DNA, MITOCHONDRIAL DNA, POMEGRANATE, RNA editing, COMPARATIVE genomics, COMPARATIVE studies, GENES

Abstract

Background: Punica granatum is a fundamentally important fruit tree that has important economic, medicinal and ornamental properties. At present, there are few reports on the mitochondrial genome of pomegranate. Hence, in this study the P. granatum mitogenome was sequenced and assembled to further understanding of organization, variation, and evolution of mitogenomes of this tree species. Results: The genome structure was multi-chromosomes with seven circular contigs, measuring 382,774 bp in length with a 45.91% GC content. It contained 74 genes, including 46 protein-coding genes, 25 tRNA genes, and three rRNA genes. There were 188 pairs of dispersed repeats with lengths of 30 or greater, primarily consisting of reverse complementary repeats. The mitogenome analysis identified 114SSRs and 466 RNA editing sites. Analyses of codon usage, nucleotide diversity and gene migration from chloroplast to mitochondrial were also conducted. The collinear and comparative analysis of mitochondrial structures between P. granatum and its proximal species indicated that P. granatum 'Taishanhong' was closely related to P. granatum 'Qingpitian' and Lagerstroemia indica. Phylogenetic examination based on the mitogenome also confirmed the evolutionary relationship. Conclusion: The results offered crucial information on the evolutionary biology of pomegranate and highlighted ways to promote the utilization of the species' germplasm. [ABSTRACT FROM AUTHOR]

Published

2023

16. Comparative Genomic Analysis of GARP Transcription Factor Family in Legumes and Identification of Stress-Responsive Candidate Genes.

Author

Singh, Ritu, Pandey, Ashutosh, and Verma, Praveen Kumar

Subjects

GENOMICS, MEDICAGO, TRANSCRIPTION factors, LEGUMES, CHICKPEA, PLANT life cycles, GENES

Abstract

The GARP transcription factors have been identified for multiple biological functions throughout the life cycle of a plant. Despite of its involvement in crucial functions, systematic study of GARPs remains obscure in plants. In this study, we explored the genomic, molecular, and evolutionary perspectives of the GARP gene family in the three major leguminous plants, namely chickpea (Cicer arietinum), soybean (Glycine max), and barrel clover (Medicago truncatula). Here, we identified 53, 56, and 107 GARP genes in Cicer, Medicago, and Glycine, respectively. They were classified into four clades and two sub-clades as per phylogenetic analysis, and the result was supported by consensus motifs, domain organization, and exon–intron structures. Detailed comparative analysis indicates conservation of the GARP gene family in plants. Identification of paralogous and orthologous gene pairs revealed that the expansion of this family occurs mainly through genome duplication in legumes. Additionally, the three-dimensional structure and functional enrichment analysis indicated their major role in signaling, growth, development, and stress processes. The chickpea GARP genes were also characterized for their transcript modulation in diverse plant organs and during pathogenic stress. Differential regulation of 24 CaGARP genes was observed during Ascochyta Blight (AB) stress. Characterization of AB-responsive genes reveals an over-representation of stress and hormone-binding elements on the promoter of CaGARPs. Additionally, interactome analysis also confirms the role of GARPs in plant stress and development. Our findings not only provide a handful of stress-responsive genes but also lay the foundation for prospective functional studies of GARPs in legumes. [ABSTRACT FROM AUTHOR]

Published

2023

17. Range‐wide evolutionary relationships and historical demography of brown bears (Ursus arctos) revealed by whole‐genome sequencing of isolated central Asian populations.

Author

Tumendemberel, Odbayar, Hendricks, Sarah A., Hohenlohe, Paul A., Sullivan, Jack, Zedrosser, Andreas, Sæbø, Mona, Proctor, Michael F., Koprowski, John L., and Waits, Lisette P.

Subjects

*BROWN bear, *ASIANS, *DEMOGRAPHY, *SINGLE nucleotide polymorphisms, *BEAR populations, *NUCLEOTIDE sequencing, *SUBSPECIES

Abstract

Phylogeographic studies uncover hidden pathways of divergence and inform conservation. Brown bears (Ursus arctos) have one of the broadest distributions of all land mammals, ranging from Eurasia to North America, and are an important model for evolutionary studies. Although several whole genomes were available for individuals from North America, Europe and Asia, limited whole‐genome data were available from Central Asia, including the highly imperilled brown bears in the Gobi Desert. To fill this knowledge gap, we sequenced whole genomes from nine Asian brown bears from the Gobi Desert of Mongolia, Northern Mongolia and the Himalayas of Pakistan. We combined these data with published brown bear sequences from Europe, Asia and North America, as well as other bear species. Our goals were to determine the evolutionary relationships among brown bear populations worldwide, their genetic diversity and their historical demography. Our analyses revealed five major lineages of brown bears based on a filtered set of 684,081 single nucleotide polymorphisms. We found distinct evolutionary lineages of brown bears in the Gobi, Himalayas, northern Mongolia, Europe and North America. The lowest level of genetic diversity and the highest level of inbreeding were found in Pakistan, the Gobi Desert and Central Italy. Furthermore, the effective population size (Ne) for all brown bears decreased over the last 70,000 years. Our results confirm the genetic distinctiveness and ancient lineage of brown bear subspecies in the Gobi Desert of Mongolia and the Himalayas of Pakistan and highlight their importance for conservation. [ABSTRACT FROM AUTHOR]

Published

2023

18. First record of North Italian roach, Leucos aula (Bonaparte, 1841) on the Pag Island, Croatia—relict of the last glacial maximum?

Author

Vucić, Matej, Hama, Feitoumatt Lematt, Jelić, Dušan, Bačić, Morana, Klobučar, Göran, Dmitrović, Barbara Anđelić, and Bogutskaya, Nina

Subjects

*LAST Glacial Maximum, *MOLECULAR phylogeny, *MITOCHONDRIAL DNA, *FRESHWATER fishes, *CYTOCHROME oxidase, *ENDEMIC fishes, *ISLANDS

Abstract

Croatian ichthyofauna is one of the most diverse and rich in freshwater and endemic fish species in the European continent. However, to date, the distribution and phylogenetic relationships of certain freshwater fish species in Croatia is still not well known. In this study, we present a phylogenetic analysis of the North Italian roach (Leucos aula, Bonaparte, 1841) belonging to Croatian and Italian populations using nucleotide sequences of mitochondrial genes for cytochrome oxidase subunit I (COI mtDNA). The results confirmed the occurrence of L. aula on Pag Island and showed its close phylogenetic relationship with Coratian populations of the species from Ravni kotari (Baštica and Jaruga streams, Zadar County), Pazinčica River (Istria), and Zrmanja River, and with samples from three different locations in Italy (Po, Arno, and Sardinia rivers). Our study contributed to a precise understanding of the distribution of L. aula in the Zadar County (Croatia) and confirmed the conspecificity of Croatian and Italian populations. [ABSTRACT FROM AUTHOR]

Published

2023

19. Inferring Historical Introgression with Deep Learning.

Author

Zhang, Yubo, Zhu, Qingjie, Shao, Yi, Jiang, Yanchen, Ouyang, Yidan, Zhang, Li, and Zhang, Wei

Subjects

*DEEP learning, *ADAPTIVE radiation, *CONVOLUTIONAL neural networks, *RICE, *SEQUENCE alignment

Abstract

Resolving phylogenetic relationships among taxa remains a challenge in the era of big data due to the presence of genetic admixture in a wide range of organisms. Rapidly developing sequencing technologies and statistical tests enable evolutionary relationships to be disentangled at a genome-wide level, yet many of these tests are computationally intensive and rely on phased genotypes, large sample sizes, restricted phylogenetic topologies, or hypothesis testing. To overcome these difficulties, we developed a deep learning-based approach, named ERICA, for inferring genome-wide evolutionary relationships and local introgressed regions from sequence data. ERICA accepts sequence alignments of both population genomic data and multiple genome assemblies, and efficiently identifies discordant genealogy patterns and exchanged regions across genomes when compared with other methods. We further tested ERICA using real population genomic data from Heliconius butterflies that have undergone adaptive radiation and frequent hybridization. Finally, we applied ERICA to characterize hybridization and introgression in wild and cultivated rice, revealing the important role of introgression in rice domestication and adaptation. Taken together, our findings demonstrate that ERICA provides an effective method for teasing apart evolutionary relationships using whole genome data, which can ultimately facilitate evolutionary studies on hybridization and introgression. [ABSTRACT FROM AUTHOR]

Published

2023

20. Phylotranscriptomics supports numerous polyploidization events and phylogenetic relationships in Nicotiana.

Author

Shuaibin Wang, Junping Gao, Zhaowu Li, Kai Chen, Wenxuan Pu, and Chen Feng

Subjects

BIOLOGICAL evolution, POPULATION genetics, PHYLOGENY, NICOTIANA, SPECIES

Abstract

Introduction: Nicotiana L. (Solanaceae) is of great scientific and economic importance, and polyploidization has been pivotal in shaping this genus. Despite many previous studies on the Nicotiana phylogenetic relationship and hybridization, evidence from whole genome data is still lacking. Methods: In this study, we obtained 995 low-copy genes and plastid transcript fragments from the transcriptome datasets of 26 Nicotiana species, including all sections. We reconstructed the phylogenetic relationship and phylogenetic network of diploid species. Results: The incongruence among gene trees showed that the formation of N. sylvestris involved incomplete lineage sorting. The nuclear–plastid discordance and nuclear introgression absence indicated that organelle capture from section Trigonophyllae was involved in forming section Petunioides. Furthermore, we analyzed the evolutionary origin of polyploid species and dated the time of hybridization events based on the analysis of PhyloNet, sequence similarity search, and phylogeny of subgenome approaches. Our results highly evidenced the hybrid origins of five polyploid sections, including sections Nicotiana, Repandae, Rusticae, Polydicliae, and Suaveolentes. Notably, we provide novel insights into the hybridization event of section Polydicliae and Suaveolentes. The section Polydicliae formed from a single hybridization event between maternal progenitor N. attenuata and paternal progenitor N. undulata; the N. sylvestris (paternal progenitor) and the N. glauca (maternal progenitor) were involved in the formation of section Suaveolentes. Discussion: This study represents the first exploration of Nicotiana polyploidization events and phylogenetic relationships using the highthroughput RNA-seq approach. It will provide guidance for further studies in molecular systematics, population genetics, and ecological adaption studies in Nicotiana and other related species. [ABSTRACT FROM AUTHOR]

Published

2023

21. Evolutionary relationship and structural analysis of blast resistance associated novel Osvwa 36 and Osvwa 37 genes in cultivated and wild species of rice

Author

Karkute, Suhas Gorakh, Sevanthi, Amitha Mithra, and Solanke, Amolkumar U.

Published

2023

22. Genetic diversity and runs of homozygosity analysis of Hetian sheep populations revealed by Illumina Ovine SNP50K BeadChip

Author

Zhipeng Han, Wen Zhou, Lulu Zhang, Ruotong Wang, Chunjie Liu, Xinyu Bai, and Shudong Liu

Subjects

Illumina OvineSNP50 BeadChip, population genetic structure, evolutionary relationship, Hetian sheep, ROH, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Hetian sheep have a long history and a wide distribution. They are renowned for their carpet-grade wool, which makes them a valuable genetic resource in China. The survey revealed that Hetian sheep primarily inhabit three distinct ecological environments: mountains (MTS), mountain–grasslands (MGTS), and grasslands (GTS). To understand the evolutionary relationships and germplasm characteristics of Hetian sheep in these diverse environments, we randomly selected 84 healthy adult ewes from each of these ecological regions. We obtained the Illumina Ovine SNP50K BeadChip by extracting DNA from Hetian sheep ear tissue using the phenol-chloroform method. Afterward, we conducted a population genetic structure and genetic diversity analysis of Hetian sheep using the Illumina Ovine SNP50K Beadchip. Principal component analysis (PCA) and neighbor-joining (NJ) phylogenetic analysis indicated that Hetian sheep in three different ecological environments exhibit distinct genetic distances. Admixture analysis indicated that MGTS and GTS share a common ancestral origins. Additionally, the linkage disequilibrium (LD) analysis indicated that M had the highest decay rate, while MG had the lowest decay rate. Furthermore, we identified the overlapping homozygous genomic regions of Hetian sheep in the three ecological environments through runs of homozygosity (ROH) analysis. We subsequently performed gene annotation and enrichment analysis on these overlapping genomic regions. In the MTS environment, we identified 31 candidate genes associated with high-altitude environmental adaptation. These genes are involved in bone cell generation, differentiation, and the maintenance of bone homeostasis (WNT6, WNT10A, and CHSY1); tooth and tongue development (LEF1, TP63, and PRDM16); and hearing and visual functions (RBP4, ATF6, and JAG1). In the GTS environment, we identified 22 candidate genes related to economic traits, including those associated with reproduction (PLA2G4F, ACVR1, and ADCY2) and growth (CAPN3, YAP1, and FGF9). Research indicates that Hetian sheep can be divided at the genomic level into three subtypes: MTS, MGTS, and GTS. This enhances the genetic diversity of Hetian sheep germplasm resources and provides guidance for the conservation of Hetian sheep breeds. Additionally, we have identified genes related to multiparous traits in MGTS and GTS, offering insights for the selection and breeding of multiparous Hetian sheep.

Published

2023

23. Synergistic action of lytic polysaccharide monooxygenase with glycoside hydrolase for lignocellulosic waste valorization: a review.

Author

Srivastava, Shweta, Jhariya, Upasana, Purohit, Hemant J., and Dafale, Nishant A.

Abstract

Improving enzymatic saccharification of lignocellulosic biomass is the major bottle neck in the area of second generation biofuel production. Metalloenzyme lytic polysaccharide monooxygenase (LPMO) has the capability to oxidize the complex lignocellulose in the crystalline area and thus acts as a catalyst in the process of lignocellulosic deconstruction. The present review undermines the importance of LPMO in biofuel sectors. It emphasizes evolutionary relationship, structure, mechanism, and synergistic action of LPMOs. A radial phylogram of 168 LPMO genes from archaea to terrestrial plant infers their evolution in different domains. The existence of LPMOs in extreme environmental condition and structural insights of these LPMOs show the conservation in active copper center and flat surface for substrate binding. This finding may open a new way for the isolation of active LPMOs from different environmental condition and their optimization to withstand the industrial parameters. The synergistic action of LPMO with different cellulase and hemicellulase may help in lowering the catalytic load which ultimately may reduce the cost of pretreatment steps. This review therefore sums up the recent findings concerning the LPMO's mechanism of action and identifies issues and questions to be addressed in the future. [ABSTRACT FROM AUTHOR]

Published

2023

24. Responses of Three Pedicularis Species to Geological and Climatic Changes in the Qinling Mountains and Adjacent Areas in East Asia

Author

Qijing Zhang, Zhaoping Lu, Mingchen Guo, Jia Kang, Jia Li, Xiaojing He, Jiayi Wu, Ruihang Liu, Jiaxin Dang, and Zhonghu Li

Subjects

divergence, geographic distribution, evolutionary relationship, ecological niche analysis, Pedicularis, Botany, QK1-989

Abstract

The Qinling Mountains in East Asia serve as the geographical boundary between the north and south of China and are also indicative of climatic differences, resulting in rich ecological and species diversity. However, few studies have focused on the responses of plants to geological and climatic changes in the Qinling Mountains and adjacent regions. Therefore, we investigated the evolutionary origins and phylogenetic relationships of three Pedicularis species in there to provide molecular evidence for the origin and evolution of plant species. Ecological niche modeling was used to predict the geographic distributions of three Pedicularis species during the last interglacial period, the last glacial maximum period, and current and future periods, respectively. Furthermore, the distribution patterns of climate fluctuations and the niche dynamics framework were used to assess the equivalence or difference of niches among three Pedicularis species. The results revealed that the divergence of three Pedicularis species took place in the Miocene and Holocene periods, which was significantly associated with the large-scale uplifts of the Qinling Mountains and adjacent regions. In addition, the geographic distributions of three Pedicularis species have undergone a northward migration from the past to the future. The most important environmental variables affecting the geographic distributions of species were the mean diurnal range and annual mean temperature range. The niche divergence analysis suggested that the three Pedicularis species have similar ecological niches. Among them, P. giraldiana showed the highest niche breadth, covering nearly all of the climatic niche spaces of P. dissecta and P. bicolor. In summary, this study provides novel insights into the divergence and origins of three Pedicularis species and their responses to climate and geological changes in the Qinling Mountains and adjacent regions. The findings have also provided new perspectives for the conservation and management of Pedicularis species.

Published

2024

25. Peach DELLA Protein PpeDGYLA Is Not Degraded in the Presence of Active GA and Causes Dwarfism When Overexpressed in Poplar and Arabidopsis.

Author

Chen, Yun, Zhang, Mengmeng, Wang, Xiaofei, Shao, Yun, Hu, Xinyue, Cheng, Jun, Zheng, Xianbo, Tan, Bin, Ye, Xia, Wang, Wei, Li, Jidong, Li, Ming, Zhang, Langlang, and Feng, Jiancan

Subjects

*PEACH, *TREE size, *POPLARS, *DWARFISM, *ARABIDOPSIS, *ORCHARD management

Abstract

Controlling the tree size of fruit species such as peach can reduce the amount of labor and input needed for orchard management. The phytohormone gibberellin (GA) positively regulates tree size by inducing degradation of the GA signaling repressor DELLA. The N-terminal DELLA domain in this protein is critical for its GA-dependent interaction with the GA receptor GID1 and the resulting degradation of the DELLA protein, which allows for growth-promoting GA signaling. In this study, a DELLA family member, PpeDGYLA, contains a DELLA domain but has amino acid changes in three conserved motifs (DELLA into DGYLA, LEQLE into LERLE, and TVHYNP into AVLYNP). In the absence or presence of GA3, the PpeDGYLA protein did not interact with PpeGID1c and was stable in 35S-PpeDGYLA peach transgenic callus. The overexpression of PpeDGYLA in both polar and Arabidopsis showed an extremely dwarfed phenotype, and these transgenic plants were insensitive to GA3 treatment. PpeDGYLA could interact with PpeARF6-1 and -2, supposed growth-promoting factors. It is suggested that the changes in the DELLA domain of PpeDGYLA may, to some extent, account for the severe dwarf phenotype of poplar and Arabidopsis transgenic plants. In addition, our study showed that the DELLA family contained three clades (DELLA-like, DELLA, and DGLLA). PpeDGYLA clustered into the DGLLA clade and was expressed in all of the analyzed tissues. These results lay the foundation for the further study of the repression of tree size by PpeDGYLA. [ABSTRACT FROM AUTHOR]

Published

2023

26. Comprehensive Analysis of bHLH Transcription Factors in Ipomoea aquatica and Its Response to Anthocyanin Biosynthesis.

Author

Liu, Zheng, Fu, Xiaoai, Xu, Hao, Zhang, Yuxin, Shi, Zhidi, Zhou, Guangzhen, and Bao, Wenlong

Subjects

*TRANSCRIPTION factors, *BIOSYNTHESIS, *GENE expression, *IPOMOEA, *INTRACELLULAR membranes, *CHLOROPLAST membranes

Abstract

The basic helix-loop-helix (bHLH) proteins compose one of the largest transcription factor (TF) families in plants, which play a vital role in regulating plant biological processes including growth and development, stress response, and secondary metabolite biosynthesis. Ipomoea aquatica is one of the most important nutrient-rich vegetables. Compared to the common green-stemmed I. aquatica, purple-stemmed I. aquatica has extremely high contents of anthocyanins. However, the information on bHLH genes in I. aquatica and their role in regulating anthocyanin accumulation is still unclear. In this study, we confirmed a total of 157 bHLH genes in the I. aquatica genome, which were classified into 23 subgroups according to their phylogenetic relationship with the bHLH of Arabidopsis thaliana (AtbHLH). Of these, 129 IabHLH genes were unevenly distributed across 15 chromosomes, while 28 IabHLH genes were spread on the scaffolds. Subcellular localization prediction revealed that most IabHLH proteins were localized in the nucleus, while some were in the chloroplast, extracellular space, and endomembrane system. Sequence analysis revealed conserved motif distribution and similar patterns of gene structure within IabHLH genes of the same subfamily. Analysis of gene duplication events indicated that DSD and WGD played a vital role in the IabHLH gene family expansion. Transcriptome analysis showed that the expression levels of 13 IabHLH genes were significantly different between the two varieties. Of these, the IabHLH027 had the highest expression fold change, and its expression level was dramatically higher in purple-stemmed I. aquatica than that in green-stemmed I. aquatica. All upregulated DEGs in purple-stemmed I. aquatica exhibited the same expression trends in both qRT-PCR and RNA-seq. Three downregulated genes including IabHLH142, IabHLH057, and IabHLH043 determined by RNA-seq had opposite expression trends of those detected by qRT-PCR. Analysis of the cis-acting elements in the promoter region of 13 differentially expressed genes indicated that light-responsive elements were the most, followed by phytohormone-responsive elements and stress-responsive elements, while plant growth and development-responsive elements were the least. Taken together, this work provides valuable clues for further exploring IabHLH function and facilitating the breeding of anthocyanin-rich functional varieties of I. aquatica. [ABSTRACT FROM AUTHOR]

Published

2023

27. Genome-wide identification of NHX (Na+/H+ antiporter) gene family in Cucurbita L. and functional analysis of CmoNHX1 under salt stress.

Author

Changwei Shen, Jingping Yuan, Xin Li, Ruixiang Chen, Daohan Li, Fei Wang, Xing Liu, and Xinzheng Li

Subjects

GENE families, CUCURBITA, FUNCTIONAL analysis, CUCURBITA pepo, BUTTERNUT squash, ARABIDOPSIS thaliana, OSMOTIC pressure, SODIUM channels

Abstract

Soil salinization, which is the accumulation of salt in soil, can have a negative impact on crop growth and development by creating an osmotic stress that can reduce water uptake and cause ion toxicity. The NHX gene family plays an important role in plant response to salt stress by encoding for Na+/H+ antiporters that help regulate the transport of sodium ions across cellular membranes. In this study, we identified 26 NHX genes in three cultivars of Cucurbita L., including 9 Cucurbita moschata NHXs (CmoNHX1-CmoNHX9), 9 Cucurbita maxima NHXs (CmaNHX1-CmaNHX9) and 8 Cucurbita pepo NHXs (CpNHX1-CpNHX8). The evolutionary tree splits the 21 NHX genes into three subfamilies: the endosome (Endo) subfamily, the plasma membrane (PM) subfamily, and the vacuole (Vac) subfamily. All the NHX genes were irregularly distributed throughout the 21 chromosomes. 26 NHXs were examined for conserved motifs and intron-exon organization. These findings suggested that the genes in the same subfamily may have similar functions while genes in other subfamilies may have functional diversity. The circular phylogenetic tree and collinearity analysis of multi-species revealed that Cucurbita L. had a substantially greater homology relationship than Populus trichocarpa and Arabidopsis thaliana in terms of NHX gene homology. We initially examined the cis-acting elements of the 26 NHXs in order to investigate how they responded to salt stress. We discovered that the CmoNHX1, CmaNHX1, CpNHX1, CmoNHX5, CmaNHX5, and CpNHX5 all had numerous ABRE and G-box cis-acting elements that were important to salt stress. Previous transcriptome data showed that in the mesophyll and veins of leaves, many CmoNHXs and CmaNHXs, such as CmoNHX1, responded significantly to salt stress. In addition, we heterologously expressed in A. thaliana plants in order to further confirm the response of CmoNHX1 to salt stress. The findings demonstrated that during salt stress, A. thaliana that had CmoNHX1 heterologously expression was found to have decreased salt tolerance. This study offers important details that will aid in further elucidating the molecular mechanism of NHX under salt stress. [ABSTRACT FROM AUTHOR]

Published

2023

28. Genome-Wide Analysis of the LATERAL ORGAN BOUNDARIES Domain (LBD) Members in Alfalfa and the Involvement of MsLBD48 in Nitrogen Assimilation.

Author

Jiang, Xu, Cui, Huiting, Wang, Zhen, Kang, Junmei, Yang, Qingchuan, and Guo, Changhong

Subjects

*ALFALFA, *GENE expression, *MORPHOGENESIS, *NITROGEN, *GENOME editing, *TRANSCRIPTION factors, *MEDICAGO

Abstract

The LATERAL ORGAN BOUNDARIES DOMAIN (LBD) proteins, a transcription factor family specific to the land plants, have been implicated in multiple biological processes including organ development, pathogen response and the uptake of inorganic nitrogen. The study focused on LBDs in legume forage Alfalfa. The genome-wide analysis revealed that in Alfalfa 178 loci across 31 allelic chromosomes encoded 48 unique LBDs (MsLBDs), and the genome of its diploid progenitor M. sativa spp. Caerulea encoded 46 LBDs. Synteny analysis indicated that the expansion of AlfalfaLBDs was attributed to the whole genome duplication event. The MsLBDs were divided into two major phylogenetic classes, and the LOB domain of the Class I members was highly conserved relative to that of the Class II. The transcriptomic data demonstrated that 87.5% of MsLBDs were expressed in at least one of the six test tissues, and Class II members were preferentially expressed in nodules. Moreover, the expression of Class II LBDs in roots was upregulated by the treatment of inorganic nitrogen such as KNO3 and NH4Cl (0.3 mM). The overexpression of MsLBD48, a Class II member, in Arabidopsis resulted in growth retardance with significantly declined biomass compared with the non-transgenic plants, and the transcription level of the genes involved in nitrogen uptake or assimilation, including NRT1.1, NRT2.1, NIA1 and NIA2 was repressed. Therefore, the LBDs in Alfalfa are highly conserved with their orthologs in embryophytes. Our observations that ectopic expression of MsLBD48 inhibited Arabidopsis growth by repressing nitrogen adaption suggest the negative role of the transcription factor in plant uptake of inorganic nitrogen. The findings imply the potential application of MsLBD48 in Alfalfa yield improvement via gene editing. [ABSTRACT FROM AUTHOR]

Published

2023

29. Identification and Characterization of ZF-HD Genes in Response to Abscisic Acid and Abiotic Stresses in Maize.

Author

Xiaojie Jing, Chunyan Li, Chengjuan Luo, Chaonan Yao, Jiahao Zhang, Tingting Zhu, Jiuguang Wang, and Chaoxian Liu

Subjects

CORN yields, ABSCISIC acid, ABIOTIC stress, PLANT chromosomes, PLANT genetics

Abstract

The zinc finger homeodomain (ZF-HD) genes belong to the homeobox gene family, playing critical roles in flower development and stress response. Despite their importance, however, to date there has been no genome-wide identification and characterization of the ZF-HD genes that are probably involved in stress responses in maize. In this study, 24 ZF-HD genes were identified, and their chromosomal locations, protein properties, duplication patterns, structures, conserved motifs and expression patterns were investigated. The results revealed that the ZF-HD genes are unevenly distributed on nine chromosomes and that most of these genes lack introns. Six and two ZF-HD genes have undergone segmental and tandem duplication, respectively, during genome expansion. These 24 ZF-HD transcription factors were classified into six major groups on the basis of protein molecular evolutionary relationship. The expression profiles of these genes in different tissues were evaluated, resulting in producing two distinct clusters. ZF-HD genes are preferentially expressed in reproductive tissues. Furthermore, expression profiles of the 24 ZF-HD genes in response to different kinds of stresses revealed that ten genes were simultaneously up-regulated under ABA, salt and PEG treatments; meanwhile four genes were simultaneously down-regulated. These findings will pave the way for deciphering the function and mechanism of ZF-HD genes on how to implicate in abiotic stress. [ABSTRACT FROM AUTHOR]

Published

2023

30. Biochemical Property Based Positional Matrix: A New Approach Towards Genome Sequence Comparison.

Author

Dey, Sudeshna, Das, Subhram, and Bhattacharya, D. K.

Subjects

*FUZZY integrals, *SEQUENCE analysis, *SEQUENCE alignment, *NUCLEOTIDES

Abstract

The growth of the genome sequence has become one of the emerging areas in the study of bioinformatics. It has led to an excessive demand for researchers to develop advanced methodologies for evolutionary relationships among species. The alignment-free methods have been proved to be more efficient and appropriate related to time and space than existing alignment-based methods for sequence analysis. In this study, a new alignment-free genome sequence comparison technique is proposed based on the biochemical properties of nucleotides. Each genome sequence can be distributed in four parameters to represent a 21-dimensional numerical descriptor using the Positional Matrix. To substantiate the proposed method, phylogenetic trees are constructed on the viral and mammalian datasets by applying the UPGMA/NJ clustering method. Further, the results of this method are compared with the results of the Feature Frequency Profiles method, the Positional Correlation Natural Vector method, the Graph-theoretic method, the Multiple Encoding Vector method, and the Fuzzy Integral Similarity method. In most cases, it is found that the present method produces more accurate results than the prior methods. Also, in the present method, the execution time for computation is comparatively small. [ABSTRACT FROM AUTHOR]

Published

2023

31. Codon usage bias and genetic diversity in chloroplast genomes of Elaeagnus species (Myrtiflorae: Elaeagnaceae).

Author

Li, Changle, Zhou, Ling, Nie, Jiangbo, Wu, Songping, Li, Wei, Liu, Yonghong, and Liu, Yulin

Abstract

Codon usage bias (CUB) reveals the characteristics of species and can be utilized to understand their evolutionary relationship, increase the target genes' expression in the heterologous receptor plants, and further provide theoretic assistance for correlative study on molecular biology and genetic breeding. The chief aim of this work was to analyze the CUB in chloroplast (cp.) genes in nine Elaeagnus species to provide references for subsequent studies. The codons of Elaeagnus cp. genes preferred to end with A/T bases rather than with G/C bases. Most of the cp. genes were prone to mutation, while the rps7 genes were identical in sequences. Natural selection was inferred to have a powerful impact on the CUB in Elaeagnus cp. genomes, and their CUB was extremely strong. In addition, the optimal codons were identified in the nine cp. genomes based on the relative synonymous codon usage (RSCU) values, and the optimal codon numbers were between 15 and 19. The clustering analyses based on RSCU were contrasted with the maximum likelihood (ML)-based phylogenetic tree derived from coding sequences, suggesting that the t-distributed Stochastic Neighbor Embedding clustering method was more appropriate for evolutionary relationship analysis than the complete linkage method. Moreover, the ML-based phylogenetic tree based on the conservative matK genes and the whole cp. genomes had visible differences, indicating that the sequences of specific cp. genes were profoundly affected by their surroundings. Following the clustering analysis, Arabidopsis thaliana was considered the optimal heterologous expression receptor plant for the Elaeagnus cp. genes. [ABSTRACT FROM AUTHOR]

Published

2023

32. Population genomics of Zea species identifies selection signatures during maize domestication and adaptation

Author

Gen Xu, Xuan Zhang, Wenkang Chen, Renyu Zhang, Zhi Li, Weiwei Wen, Marilyn L. Warburton, Jiansheng Li, Huihui Li, and Xiaohong Yang

Subjects

Zea, Evolutionary relationship, Domestication, Adaptation, Genome-wide association study, Flowering time, Botany, QK1-989

Abstract

Abstract Background Maize (Zea mays L. ssp. mays) was domesticated from teosinte (Zea mays ssp. parviglumis) about 9000 years ago in southwestern Mexico and adapted to a range of environments worldwide. Researchers have depicted the maize domestication and adaptation processes over the past two decades, but efforts have been limited either in sample size or genetic diversity. To better understand these processes, we conducted a genome-wide survey of 982 maize inbred lines and 190 teosinte accessions using over 40,000 single-nucleotide polymorphism markers. Results Population structure, principal component analysis, and phylogenetic trees all confirmed the evolutionary relationship between maize and teosinte, and determined the evolutionary lineage of all species within teosinte. Shared haplotype analysis showed similar levels of ancestral alleles from Zea mays ssp. parviglumis and Zea mays ssp. mexicana in maize. Scans for selection signatures identified 394 domestication sweeps by comparing wild and cultivated maize and 360 adaptation sweeps by comparing tropical and temperate maize. Permutation tests revealed that the public association signals for flowering time were highly enriched in the domestication and adaptation sweeps. Genome-wide association study identified 125 loci significantly associated with flowering-time traits, ten of which identified candidate genes that have undergone selection during maize adaptation. Conclusions In this study, we characterized the history of maize domestication and adaptation at the population genomic level and identified hundreds of domestication and adaptation sweeps. This study extends the molecular mechanism of maize domestication and adaptation, and provides resources for basic research and genetic improvement in maize.

Published

2022

33. Corrigendum: Haplotype analysis of chloroplast genomes for jujube breeding

Author

Guanglong Hu, Yang Wu, Chaojun Guo, Dongye Lu, Ningguang Dong, Bo Chen, Yanjie Qiao, Yuping Zhang, and Qinghua Pan

Subjects

Ziziphus jujuba, chloroplast genome, genomic structure, phylogenetic analysis, evolutionary relationship, breeding strategy, Plant culture, SB1-1110

Published

2023

34. Genome-wide identification, structural and evolutionary characteristics, and expression analysis of aquaporin gene family members in Mercenaria mercenaria

Author

Cong Zhou, Zhi-shu Lin, Ying Shi, Jie Feng, Zhi Hu, Mei-jie Yang, Pu Shi, Yong-ren Li, Yong-jun Guo, Tao Zhang, and Hao Song

Subjects

aquaporin, evolutionary relationship, tandem duplication, environmental stress, expression pattern, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Aquaporins (AQPs) are highly-selective transmembrane water transporters that are involved in the adaptation to environmental challenges. However, the structure, function, and evolution of AQPs in bivalves remain largely unknown. In this study, AQP gene family members were identified in nine bivalve species, and their abundance rangs from 7 to 15. Nine AQPs (MmAQPs) were identified in the genome of hard clam (Mercenaria mercenaria), which is a euryhaline bivalve that has evolved sophisticated osmoregulatory mechanisms and salinity adaptation. Structurally, all MmAQPs contain 6 or 12 transmembrane α-helices, a major intrinsic protein (MIP) domain, and 2 asparagine-proline-alanine (NPA) motifs. MmAQPs were classified into three subfamilies based on phylogenetic analysis: AQP1-like, AQP3-like, and AQP8-like. No AQP11-like subfamily member was identified in the genome of hard clam. Tandem duplication resulted in a lineage-specific expansion in AQP8-like subfamily in hard clams. MmAQP8 genes showed different expression sensitivity to different environmental stressors. The gene expression patterns of three MmAQP8 were similar under heat, hypoxia, and air exposure stress, but differed greatly under salinity stress, indicating that tandem duplication events may accelerate the functional divergence of AQP8 genes in hard clams. AQP3-like members may have undergone gene loss during evolution, resulting in weakened glycerol and urea penetration in hard clams. Three orthologs of MmAQPs were detected in the genomes of Cyclina sinensis and Archivesica marissinica through synteny analyses. Tissue expression profiles showed that MmAQP genes were highly expressed in the foot and hepatopancreas. Under environmental stress, the expression levels of most of the MmAQP genes changed significantly to maintain metabolic homeostasis. Several MmAQP genes were downregulated to reduce water permeability under salinity and air exposure stress. Several MmAQP genes were significantly upregulated to promote the transmembrane transport of ammonia and reactive oxygen species and activate anti-apoptotic responses to resist stress. This study provides a comprehensive understanding of the AQP gene family in hard clams, and lays a foundation for further studies to explore the functions of AQPs in bivalves.

Published

2023

35. Comprehensive Analysis of Signal Peptides in Saccharomyces cerevisiae Reveals Features for Efficient Secretion.

Author

Xue, Songlyu, Liu, Xiufang, Pan, Yuyang, Xiao, Chufan, Feng, Yunzi, Zheng, Lin, Zhao, Mouming, and Huang, Mingtao

Subjects

*SIGNAL peptides, *SACCHAROMYCES cerevisiae, *RECOMBINANT proteins, *SECRETION, *CELL physiology, *GENETIC code

Abstract

Signal peptides (SPs) are N‐terminus sequences on the nascent polypeptide for protein export or localization delivery, which are essential for maintaining cell function. SPs are also employed as a key element for industrial production of secreted recombinant proteins. Yet, detailed information and rules about SPs and their cellular interactions are still not well understood. Here, systematic bioinformatics analysis and secretion capacity measurement of genome‐wide SPs from the model organism Saccharomyces cerevisiae is performed. Several key features of SPs, including region properties, consensus motifs, evolutionary relationships, codon bias, e.g., are successfully revealed. Diverse cell metabolism can be trigged by using different SPs for heterologous protein secretion. Influences on SPs with different properties by chaperones can cause different secretory efficiencies. Protein secretion by the SP NCW2 in SEC72 deletion strain is 10 times than the control. These findings provide insights into the properties and functions of SPs and contribute to both fundamental research and industrial application. [ABSTRACT FROM AUTHOR]

Published

2023

36. Genomic survey of TCP transcription factors in plants: Phylogenomics, evolution and their biology.

Author

Haiying Zhou, Delight Hwarari, Hongyu Ma, Haibin Xu, Liming Yang, and Yuming Luo

Subjects

BIOLOGICAL evolution, TRANSCRIPTION factors, PROLIFERATING cell nuclear antigen, PROTHROMBIN

Abstract

The TEOSINTE BRANCHED1 (TBI1), CYCLOIDEA (CYC), and PROLIFERATING CELL NUCLEAR ANTIGEN FACTORS (PCF1 and PCF2) proteins truncated as TCP transcription factors carry conserved basic-helix-loop-helix (bHLH) structure, related to DNA binding functions. Evolutionary history of the TCP genes has shown their presence in early land plants. In this paper, we performed a comparative discussion on the current knowledge of the TCP Transcription Factors in lower and higher plants: their evolutionary history based on the phylogenetics of 849 TCP proteins from 37 plant species, duplication events, and biochemical roles in some of the plants species. Phylogenetics investigations confirmed the classification of TCP TFs into Class I (the PCF1/ 2), and Class II (the C- clade) factors; the Class II factors were further divided into the CIN- and CYC/TB1- subclade. A trace in the evolution of the TCP Factors revealed an absence of the CYC/TB1subclade in lower plants, and an independent evolution of the CYC/TB1subclade in both eudicot and monocot species. 54% of the total duplication events analyzed were biased towards the dispersed duplication, and we concluded that dispersed duplication events contributed to the expansion of the TCP gene family. Analysis in the TCP factors functional roles confirmed their involvement in various biochemical processes which mainly included promoting cell proliferation in leaves in Class I TCPs, and cell division during plant development in Class II TCP Factors. Apart from growth and development, the TCP Factors were also shown to regulate hormonal and stress response pathways. Although this paper does not exhaust the present knowledge of the TCP Transcription Factors, it provides a base for further exploration of the gene family. [ABSTRACT FROM AUTHOR]

Published

2022

37. Full-length transcriptomic identification of R2R3-MYB family genes related to secondary cell wall development in Cunninghamia lanceolata (Chinese fir)

Author

Hebi Zhuang, Sun-Li Chong, Borah Priyanka, Xiao Han, Erpei Lin, Zaikang Tong, and Huahong Huang

Subjects

Wood formation, MYB transcription factor, Gymnosperm, Cunninghamia lanceolata, Evolutionary relationship, Botany, QK1-989

Abstract

Abstract Background R2R3-MYB is a class of transcription factor crucial in regulating secondary cell wall development during wood formation. The regulation of wood formation in gymnosperm has been understudied due to its large genome size. Using Single-Molecule Real-Time sequencing, we obtained full-length transcriptomic libraries from the developmental stem of Cunninghamia lanceolata, a perennial conifer known as Chinese fir. The R2R3-MYB of C. lanceolata (hereafter named as ClMYB) associated with secondary wall development were identified based on phylogenetic analysis, expression studies and functional study on transgenic line. Results The evolutionary relationship of 52 ClMYBs with those from Arabidopsis thaliana, Eucalyptus grandis, Populus trichocarpa, Oryza sativa, two gymnosperm species, Pinus taeda, and Picea glauca were established by neighbour-joining phylogenetic analysis. A large number of ClMYBs resided in the woody-expanded subgroups that predominated with the members from woody dicots. In contrast, the woody-preferential subgroup strictly carrying the members of woody dicots contained only one candidate. The results suggest that the woody-expanded subgroup emerges before the gymnosperm/angiosperm split, while most of the woody-preferential subgroups are likely lineage-specific to woody dicots. Nine candidates shared the same subgroups with the A. thaliana orthologs, with known function in regulating secondary wall development. Gene expression analysis inferred that ClMYB1/2/3/4/5/26/27/49/51 might participate in secondary wall development, among which ClMYB1/2/5/26/27/49 were significantly upregulated in the highly lignified compression wood region, reinforcing their regulatory role associated with secondary wall development. ClMYB1 was experimentally proven a transcriptional activator that localised in the nucleus. The overexpression of ClMYB1 in Nicotiana benthamiana resulted in an increased lignin deposition in the stems. The members of subgroup S4, ClMYB3/4/5 shared the ERF-associated amphiphilic repression motif with AtMYB4, which is known to repress the metabolism of phenylpropanoid derived compounds. They also carried a core motif specific to gymnosperm lineage, suggesting divergence of the regulatory process compared to the angiosperms. Conclusions This work will enrich the collection of full-length gymnosperm-specific R2R3-MYBs related to stem development and contribute to understanding their evolutionary relationship with angiosperm species.

Published

2021

38. Complete mitochondrial genome of Kentrochrysalis streckeri (Lepidoptera: Sphingidae) and phylogenetic analysis

Author

Yi-Xin Huang, Xiu-Shuang Zhu, Hong Zhang, Li-Qing Qi, Huai-Zhang Jin, Cong-Liang Bian, Wen-Long Chen, and Xu Wang

Subjects

bombycoidea, dabie mountain, evolutionary relationship, hawkmoth, phylogeny, Genetics, QH426-470

Abstract

In this study, we sequenced the complete mitogenome of Kentrochrysalis streckeri (Staudinger, 1880). The complete mitogenome sequence of K. streckeri is circular, 15,253 bp in size and contains 13 protein-coding genes (PCGs), two ribosomal RNA (rRNA) genes, 22 transfer RNA (tRNA) genes, and a control region (CR). Nucleotide composition was A + T biased, and all the PCGs exhibited a positive AT-skew, which was reflected in the nucleotide composition, codon, and amino acid usage. Most PCGs start with ATG or ATT and stop with TAA. However, COX1 gene starts with CGA and three genes (COX1, COX2, NAD5) use the incomplete stop codon T. Phylogenetic analyses showed that the relationship (K. streckeri+((Manduca sexta+Sphinx morio)+(Psilogramma increta+(Psilogramma menephron+Notonagemia analis scribae)))).

Published

2022

39. Population genomics of Zea species identifies selection signatures during maize domestication and adaptation.

Author

Xu, Gen, Zhang, Xuan, Chen, Wenkang, Zhang, Renyu, Li, Zhi, Wen, Weiwei, Warburton, Marilyn L., Li, Jiansheng, Li, Huihui, and Yang, Xiaohong

Subjects

CORN, GENOME-wide association studies, GENOMICS, PRINCIPAL components analysis, SINGLE nucleotide polymorphisms, SPECIES

Abstract

Background: Maize (Zea mays L. ssp. mays) was domesticated from teosinte (Zea mays ssp. parviglumis) about 9000 years ago in southwestern Mexico and adapted to a range of environments worldwide. Researchers have depicted the maize domestication and adaptation processes over the past two decades, but efforts have been limited either in sample size or genetic diversity. To better understand these processes, we conducted a genome-wide survey of 982 maize inbred lines and 190 teosinte accessions using over 40,000 single-nucleotide polymorphism markers. Results: Population structure, principal component analysis, and phylogenetic trees all confirmed the evolutionary relationship between maize and teosinte, and determined the evolutionary lineage of all species within teosinte. Shared haplotype analysis showed similar levels of ancestral alleles from Zea mays ssp. parviglumis and Zea mays ssp. mexicana in maize. Scans for selection signatures identified 394 domestication sweeps by comparing wild and cultivated maize and 360 adaptation sweeps by comparing tropical and temperate maize. Permutation tests revealed that the public association signals for flowering time were highly enriched in the domestication and adaptation sweeps. Genome-wide association study identified 125 loci significantly associated with flowering-time traits, ten of which identified candidate genes that have undergone selection during maize adaptation. Conclusions: In this study, we characterized the history of maize domestication and adaptation at the population genomic level and identified hundreds of domestication and adaptation sweeps. This study extends the molecular mechanism of maize domestication and adaptation, and provides resources for basic research and genetic improvement in maize. [ABSTRACT FROM AUTHOR]

Published

2022

40. Genetic structure and evolutionary relationship for cultivated rice resources from Guangdong province based on SLAF tag sequencing.

Author

SUN Bing-Rui, PAN Da-Jian, LI Chen, JIANG Li-Qun, ZHANG Jing, LYU Shu-Wei, LIU Qing, MAO Xing-Xue, CHEN Wen-Feng, and FAN Zhi-Lan

Abstract

Since the success of rice dwarfism breeding, Guangdong rice varieties have played an important role in domestic rice breeding. According to the national "14th Five-Year Plan", the independent innovation of seed industry in China will aim at enhancing the competitiveness of core seed resources, and focus on the protection and utilization of germplasm resources. In this study, we carried out the analysis of genetic evolution, population genetic structure, and principal component analysis for 98 representative varieties including bred varieties in different periods and local varieties in Guangdong Province, and found that 43 old rice varieties and 5 local rice varieties had broader genetic basis, while 50 newly bred varieties had a relatively narrow genetic basis. Genetic evolution and pedigree analysis indicated that most of the old varieties originated from Guangchang 13, Nantehao, Aizizhan, Tangpuai and Zhuyin 2, while most of the new rice varieties were mainly derived from IR varieties, Jingxian 677, Guangchangai and Zhongxian 3588. These results indicated that the usage of foreign varieties had been strengthened in rice breeding and the utilization of the elite local germplasms was weakened, which may be related to the rising of three-line hybrid rice since 1980s. In conclusion, to establish the competitive position of core seed sources, the evaluation and utilization of local elite germplasms should be emphasized. [ABSTRACT FROM AUTHOR]

Published

2022

41. Re‐assessing the phylogenetic status and evolutionary relationship of Forest Owlet (Athene blewitti (Hume 1873)) using genomic data.

Author

K. L., Vinay, Natesh, Meghana, Mehta, Prachi, Jayapal, Rajah, Mukherjee, Shomita, and Robin, V. V.

Subjects

RELATIONSHIP status, SPECIES diversity, GEOCHRONOMETRY, HARVESTING, LOCUS (Genetics), BAYESIAN analysis

Abstract

Phylogenetic relationships are often challenging to resolve in recent/younger lineages when only a few loci are used. Ultra‐conserved elements (UCEs) are highly conserved regions across taxa that help resolve shallow and deep divergences. We utilized UCEs harvested from whole genomes to assess the phylogenetic position and taxonomic affiliation of an endangered endemic owlet in the family Strigidae, the Forest Owlet Athene blewitti. The taxonomic placement of this species has been revised multiple times. A multigene study attempted to address the question but showed a discrepancy across datasets in its placement of species within the genus Athene. We assembled a dataset of 5018 nuclear UCE loci with increased taxon sampling. Forest Owlet was found to be an early split from the Athene clade but sister to other Athene, consistently across three approaches – maximum likelihood, Bayesian and the multispecies coalescence. Divergence dating using fossil calibrations suggests that the Athene lineage split from its ancestor about 7.6 mya, and Forest Owlet diverged about 5.2 mya. This estimate is consistent with previous multigene approaches and confirms the role of climate‐aridification across the Indian peninsula in species diversification. Despite osteological differences from other Athene, we suggest placement of the Forest Owlet as a member of the Athene to emphasize its evolutionary relationship. [ABSTRACT FROM AUTHOR]

Published

2022

42. Comparative genomic analysis and phylogeny of NAC25 gene from cultivated and wild Coffea species.

Author

Huded, Arun Kumar C., Jingade, Pavankumar, Mishra, Manoj Kumar, Ercisli, Sezai, Ilhan, Gulce, Marc, Romina Alina, and Vodnar, Dan

Subjects

GENOMICS, FRUIT ripening, COFFEE, PHYLOGENY, FARM produce, SPECIES, CELL division, COFFEE beans

Abstract

Coffee is a high value agricultural commodity grown in about 80 countries. Sustainable coffee cultivation is hampered by multiple biotic and abiotic stress conditions predominantly driven by climate change. The NAC proteins are plants specific transcription factors associated with various physiological functions in plants which include cell division, secondary wall formation, formation of shoot apical meristem, leaf senescence, flowering embryo and seed development. Besides, they are also involved in biotic and abiotic stress regulation. Due to their ubiquitous influence, studies on NAC transcription factors have gained momentum in different crop plant species. In the present study, NAC25 like transcription factor was isolated and characterized from two cultivated coffee species, Coffea arabica and Coffea canephora and five Indian wild coffee species for the first time. The full-length NAC25 gene varied from 2,456 bp in Coffea jenkinsii to 2,493 bp in C. arabica. In all the seven coffee species, sequencing of the NAC25 gene revealed 3 exons and 2 introns. The NAC25 gene is characterized by a highly conserved 377 bp NAM domain (N-terminus) and a highly variable C terminus region. The sequence analysis revealed an average of one SNP per every 40.92 bp in the coding region and 37.7 bp in the intronic region. Further, the non-synonymous SNPs are 8-11 fold higher compared to synonymous SNPs in the non-coding and coding region of the NAC25 gene, respectively. The expression of NAC25 gene was studied in six different tissue types in C. canephora and higher expression levels were observed in leaf and flower tissues. Further, the relative expression of NAC25 in comparison with the GAPDH gene revealed four folds and eight folds increase in expression levels in green fruit and ripen fruit, respectively. The evolutionary relationship revealed the independent evolution of the NAC25 gene in coffee. [ABSTRACT FROM AUTHOR]

Published

2022

43. Expansion and Diversification of the 14-3-3 Gene Family in Camellia sinensis.

Author

Zhang, Zai-Bao, Wang, Xue-Ke, Wang, Shuo, Guan, Qian, Zhang, Wei, and Feng, Zhi-Guo

Subjects

*GENE families, *TEA, *PLANT genes, *GREEN algae, *ABIOTIC stress, *ORANGES

Abstract

14-3-3 proteins are signal moderators in sensing various stresses and play essential functions in plant growth and development. Although, 14-3-3 gene families have been identified and characterized in many plant species, its evolution has not been studied systematically. In this study, the plant 14-3-3 family was comprehensively analyzed from green algae to angiosperm. Our result indicated that plant 14-3-3 originated during the early evolutionary history of green algae and expanded in terricolous plants. Twenty-six 14-3-3 genes were identified in the tea genome. RNA-seq analysis showed that tea 14-3-3 genes display different expression patterns in different organs. Moreover, the expression of most tea 14-3-3 genes displayed variable expression patterns under different abiotic and biotic stresses. In conclusion, our results elucidate the evolutionary origin of plant 14-3-3 genes, and beneficial for understanding their biological functions and improving tea agricultural traits in the future. [ABSTRACT FROM AUTHOR]

Published

2022

44. Effector protein structures: a tale of evolutionary relationship.

Author

Kumar, Ravi and Acharya, Vishal

Subjects

*PROTEIN structure, *AMINO acid sequence, *DISEASE resistance of plants

Abstract

Effector proteins are highly diverse, often lacking similarity in their protein sequences, making it challenging to determine their biological function. Using AlphaFold2 (AF2), Seong and Krasileva recently found that effector structures, but not sequences, share commonality. This helps further understanding of effector evolution across fungal species and reveals unique sequence-unrelated, structurally similar, effector families. [ABSTRACT FROM AUTHOR]

Published

2023

45. Widespread Dissemination of Plasmid-Mediated Tigecycline Resistance Gene tet(X4) in Enterobacterales of Porcine Origin

Author

Qin Wang, Changwei Lei, Hansen Cheng, Xue Yang, Zheren Huang, Xuan Chen, Zijing Ju, Haoyu Zhang, and Hongning Wang

Subjects

Enterobacterales, tigecycline resistance, tet(X4), evolutionary relationship, genetic environments, Microbiology, QR1-502

Abstract

ABSTRACT The emergence of the plasmid-mediated high levels of the tigecycline resistance gene has drawn worldwide attention and has posed a major threat to public health. In this study, we investigated the prevalence of the tet(X4)-positive Enterobacterales isolates collected from a pig slaughterhouse and farms. A total of 101 tigecycline resistance strains were isolated from 353 samples via a medium with tigecycline, of which 33 carried tet(X4) (9.35%, 33/353) and 2 carried tet(X6) (0.57%, 2/353). These strains belong to seven different species, with Escherichia coli being the main host bacteria. Importantly, this report is the first one to demonstrate that tet(X4) was observed in Morganella morganii. Whole-genome sequencing results revealed that tet(X4)-positive bacteria can coexist with other resistance genes, such as blaNDM-1 and cfr. Additionally, we were the first to report that tet(X4) and blaNDM-1 coexist in a Klebsiella quasipneumoniae strain. The phylogenetic tree of 533 tet(X4)-positive E. coli strains was constructed using 509 strains from the NCBI genome assembly database and 24 strains from this study, which arose from 8 sources and belonged to 135 sequence types (STs) worldwide. We used Nanopore sequencing to interpret the selected 21 nonclonal and representative strains and observed that 19 tet(X4)-harboring plasmids were classified into 8 replicon types, and 2 tet(X6) genes were located on integrating conjugative elements. A total of 68.42% of plasmids carrying tet(X4) were transferred successfully with a conjugation frequency of 10−2 to 10−7. These findings highlight that diverse plasmids drive the widespread dissemination of the tigecycline resistance gene tet(X4) in Enterobacterales of porcine origin. IMPORTANCE Tigecycline is considered to be the last resort of defense against diseases caused by broad-spectrum resistant Gram-negative bacteria. In this study, we systematically analyzed the prevalence and genetic environments of the resistance gene tet(X4) in a pig slaughterhouse and farms and the evolutionary relationship of 533 tet(X4)-positive Escherichia coli strains, including 509 tet(X4)-positive E. coli strains selected from the 27,802 assembled genomes of E. coli from the NCBI between 2002 and 2022. The drug resistance of tigecycline is widely prevalent in pig farms where tetracycline is used as a veterinary drug. This prevalence suggests that pigs are a large reservoir of tet(X4) and that tet(X4) can spread horizontally through the food chain via mobile genetic elements. Furthermore, tetracycline resistance may drive tigecycline resistance through some mechanisms. Therefore, it is important to monitor tigecycline resistance, develop effective control measures, and focus on tetracycline use in the pig farms.

Published

2022

46. Comparative genomic analysis and phylogeny of NAC25 gene from cultivated and wild Coffea species

Author

Arun Kumar C. Huded, Pavankumar Jingade, Manoj Kumar Mishra, Sezai Ercisli, Gulce Ilhan, Romina Alina Marc, and Dan Vodnar

Subjects

Coffea, NAC25, conserved domain (NAM), sequence diversity, evolutionary relationship, expression analysis, Plant culture, SB1-1110

Abstract

Coffee is a high value agricultural commodity grown in about 80 countries. Sustainable coffee cultivation is hampered by multiple biotic and abiotic stress conditions predominantly driven by climate change. The NAC proteins are plants specific transcription factors associated with various physiological functions in plants which include cell division, secondary wall formation, formation of shoot apical meristem, leaf senescence, flowering embryo and seed development. Besides, they are also involved in biotic and abiotic stress regulation. Due to their ubiquitous influence, studies on NAC transcription factors have gained momentum in different crop plant species. In the present study, NAC25 like transcription factor was isolated and characterized from two cultivated coffee species, Coffea arabica and Coffea canephora and five Indian wild coffee species for the first time. The full-length NAC25 gene varied from 2,456 bp in Coffea jenkinsii to 2,493 bp in C. arabica. In all the seven coffee species, sequencing of the NAC25 gene revealed 3 exons and 2 introns. The NAC25 gene is characterized by a highly conserved 377 bp NAM domain (N-terminus) and a highly variable C terminus region. The sequence analysis revealed an average of one SNP per every 40.92 bp in the coding region and 37.7 bp in the intronic region. Further, the non-synonymous SNPs are 8-11 fold higher compared to synonymous SNPs in the non-coding and coding region of the NAC25 gene, respectively. The expression of NAC25 gene was studied in six different tissue types in C. canephora and higher expression levels were observed in leaf and flower tissues. Further, the relative expression of NAC25 in comparison with the GAPDH gene revealed four folds and eight folds increase in expression levels in green fruit and ripen fruit, respectively. The evolutionary relationship revealed the independent evolution of the NAC25 gene in coffee.

Published

2022

47. The complete mitochondrial genome of the firefly Curtos fulvocapitalis (Coleoptera: Lampyridae)

Author

Wei Li, Quan Liu, and Xinhua Fu

Subjects

curtos fulvocapitalis, mitochondrial genome, phylogenetic relationship, evolutionary relationship, Genetics, QH426-470

Abstract

We report the complete mitochondrial genome of the firefly Curtos fulvocapitalis Jeng et Yang 1998. The circular genome is 16,398 bp and has a base composition of A (42.21%), C (11.22%), G (7.73%), and T (38.85%). Our sequence is similar to those of other metazoans, which contain 13 protein-coding genes. All 13 protein-coding genes were initiated by the ATN (ATT, ATA, and ATG) codon. Nine protein-coding genes stopped with TAA or TAG codons, and the other four genes had an incomplete termination codon, a single T. We sequenced the mitochondrial genome of fireflies to analyze phylogenetic relationships and determine the evolution of their flashing signals.

Published

2022

48. Sequence, Structure and Domain Analysis of Potassium Channels and Transporters

Author

Pandey, Girdhar K., Mahiwal, Swati, Pandey, Girdhar K., and Mahiwal, Swati

Published

2020

49. Evolutionary Relationship of Polycyclic Aromatic Hydrocarbons Degrading Bacteria with Strains Isolated from Petroleum Contaminated Soil Based on 16S rRNA Diversity.

Author

Sakshi, Singh, S. K., and Haritash, A. K.

Subjects

*POLYCYCLIC aromatic hydrocarbons, *PERSISTENT pollutants, *MOUNTAIN soils, *RIBOSOMAL RNA, *SOIL pollution, *SOILS

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are persistent organic pollutants, ubiquitously present and are hazardous to all forms of life due to their toxic, carcinogenic, and mutagenic nature. With enhanced understanding of adverse effects of PAHs on living organisms, reclamation of PAH-contaminated sites has become a global concern. In order to devise efficient bioremediation strategies for PAH-degradation, the identification and study of metabolic potential of microbial species is essential. The goal of this study is to isolate PAH-degrading bacterial strains from petroleum contaminated soil that can utilize PAHs as their sole carbon source and investigate their growth on medium containing PAHs as only carbon source. For the first time, the evolutionary relationship of isolated bacterial strains with known PAH-degrading bacterial strains having PAH-catabolic genes/enzymes involved in PAH-bioremediation was examined. Two strains isolated from contaminated soil, that is, Kocuria flava DTU-1Y and Rhodococcus pyridinivorans DTU-7P may have the ability to utilize PAHs as sole carbon source for their growth. Phylogenetic analysis for evolutionary relationship revealed that these strains are related to different known PAH-degrading bacterial strains which have catabolic genes/enzymes involved in degradation pathway. The bacterial strains reported in this study may also possess the genes responsible for PAH-degradation and can prove useful in devising sustainable bioremediation approach. [ABSTRACT FROM AUTHOR]

Published

2022

50. Haplotype Analysis of Chloroplast Genomes for Jujube Breeding.

Author

Hu, Guanglong, Wu, Yang, Guo, Chaojun, Lu, Dongye, Dong, Ningguang, Chen, Bo, Qiao, Yanjie, Zhang, Yuping, and Pan, Qinghua

Subjects

CHLOROPLAST DNA, HAPLOTYPES, JUJUBE (Plant), FRUIT trees

Abstract

Jujube (family Rhamnaceae) is an important economic fruit tree in China. In this study, we reported 26 chloroplast (cp) sequences of jujube using Illumina paired-end sequencing. The sequence length of cp genome was 161, 367–161, 849 bp, which was composed of a large single-copy region (89053–89437 bp) and a small single-copy region (19356–19362 bp) separated by a pair of reverse repeat regions (26478–26533 bp). Each cp genome encodes the same 130 genes, including 112 unique genes, being quite conserved in genome structure and gene sequence. A total of 118 single base substitutions (SNPs) and 130 InDels were detected in 65 jujube accessions. Phylogenetic and haplotype network construction methods were used to analyze the origin and evolution of jujube and its sour-tasting relatives. We detected 32 effective haplotypes, consisting of 20 unique jujube haplotypes and 9 unique sour–jujube haplotypes. Compared with sour–jujube, jujube showed greater haplotype diversity at the chloroplast DNA level. To cultivate crisp and sweet fruit varieties featuring strong resistance, by combining the characteristics of sour-jujube and cultivated jujube, three hybrid combinations were suggested for reciprocal crosses: "Dongzao" × "Jingzao39," "Dongzao" × "Jingzao60," "Dongzao" × "Jingzao28." This study provides the basis for jujube species' identification and breeding, and lays the foundation for future research. [ABSTRACT FROM AUTHOR]

Published

2022