15 results on '"Ullah, Numan"'
Search Results
2. Evolution of Skipper (SK), a family of DD34E/Tc1 transposons, in animals.
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Wang, Saisai, Guan, Zhongxia, Diaby, Mohamed, Asare, Emmanuel, Ullah, Numan, Jia, Wenzhu, Gao, Bo, Yu, Duonan, and Song, Chengyi
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TRANSPOSONS ,BIOLOGICAL evolution ,ANOPHELES gambiae ,CRUCIAN carp ,SILKWORMS ,STRUCTURAL dynamics - Abstract
High diversity and differential evolution profiles have been observed for DD34E/ Tc1 transposons; several families originating from these groups, such as DD34E/ ZB , DD34E/ SB , DD35E/ TR , DD36E/ IC, and DD38E/ IT , have been well defined. Even though Frisky , Tiang , Tsessebe, and Topi transposons have been identified in Anopheles gambiae , their taxonomic distribution and phylogenetic relationship in nature remain largely unknown. The evolutionary profiles of Frisky , Tiang , Tsessebe , and Topi homology transposons were investigated in the current study. In total, 254 homology transposons of Frisky , Tiang , Hob , Tsessebe, and Topi were obtained in 200 species by data mining. The phylogenetic tree revealed that these transposons were classified into five main clades (Frisky , Tiang , Hob , Tsessebe , and Topi) forming a monophyletic clade with 98% bootstrap support, belonging to the DD34E/ Tc1 group, and named as Skipper (SK). SK transposons show a wide distribution in animals; however, differential taxonomic distribution patterns were observed for the subfamilies of Frisky , Tiang , Hob , Tsessebe, and Topi ; extensive invasion of Frisky in animals was found, whereas Tiang , Hob , Tsessebe, and Topi were mainly detected in Diptera. SK elements share a similar structural organization and display high sequence identities across subfamilies. Evolutionary dynamics and structural analysis revealed that SK s in some species, such as Bombyx mori , Lordiphosa magnipectinata , Carassius gibelio , Triplophysa dalaica , and Silurus glanis , have recently evolved and present as intact copies, indicating that SK s in these genomes may be active. Together, these observations improve our understanding of the diversity of DD34E/ Tc1 transposons and their impacts on genome evolution in animals. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Recent insights into the functions and mechanisms of antisense RNA: emerging applications in cancer therapy and precision medicine.
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Rehman, Shahab Ur, Ullah, Numan, Zhang, Zhenbin, Zhen, Yongkang, Din, Aziz-Ud, Cui, Hengmi, Wang, Mengzhi, Ahmad, Naveed, and Horky, Pavel
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ANTISENSE RNA , *CANCER treatment , *INDIVIDUALIZED medicine , *DRUG development , *NON-coding RNA - Abstract
The antisense RNA molecule is a unique DNA transcript consisting of 19-23 nucleotides, characterized by its complementary nature to mRNA. These antisense RNAs play a crucial role in regulating gene expression at various stages, including replication, transcription, and translation. Additionally, artificial antisense RNAs have demonstrated their ability to effectively modulate gene expression in host cells.Consequently, there has been a substantial increase in research dedicated to investigating the roles of antisense RNAs. These molecules have been found to be influential in various cellular processes, such as X-chromosome inactivation and imprinted silencing in healthy cells. However, it is important to recognize that in cancer cells; aberrantly expressed antisense RNAs can trigger the epigenetic silencing of tumor suppressor genes. Moreover, the presence of deletion-induced aberrant antisense RNAs can lead to the development of diseases through epigenetic silencing. One area of drug development worth mentioning is antisense oligonucleotides (ASOs), and a prime example of an oncogenic trans-acting long noncoding RNA (lncRNA) is HOTAIR (HOX transcript antisense RNA). NATs (noncoding antisense transcripts) are dysregulated in many cancers, and researchers are just beginning to unravel their roles as crucial regulators of cancer's hallmarks, as well as their potential for cancer therapy. In this review, we summarize the emerging roles and mechanisms of antisense RNA and explore their application in cancer therapy. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Intruder (DD38E), a recently evolved sibling family of DD34E/Tc1 transposons in animals
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Gao, Bo, Zong, Wencheng, Miskey, Csaba, Ullah, Numan, Diaby, Mohamed, Chen, Cai, Wang, Xiaoyan, Ivics, Zoltán, and Song, Chengyi
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- 2020
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5. Comparative Analysis and Phylogenetic Insights of Cas14-Homology Proteins in Bacteria and Archaea.
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Ullah, Numan, Yang, Naisu, Guan, Zhongxia, Xiang, Kuilin, Wang, Yali, Diaby, Mohamed, Chen, Cai, Gao, Bo, and Song, Chengyi
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BACTERIAL proteins , *PROKARYOTIC genomes , *PROTEIN engineering , *ARCHAEBACTERIA , *PROTEIN analysis - Abstract
Type-V-F Cas12f proteins, also known as Cas14, have drawn significant interest within the diverse CRISPR-Cas nucleases due to their compact size. This study involves analyzing and comparing Cas14-homology proteins in prokaryotic genomes through mining, sequence comparisons, a phylogenetic analysis, and an array/repeat analysis. In our analysis, we identified and mined a total of 93 Cas14-homology proteins that ranged in size from 344 aa to 843 aa. The majority of the Cas14-homology proteins discovered in this analysis were found within the Firmicutes group, which contained 37 species, representing 42% of all the Cas14-homology proteins identified. In archaea, the DPANN group had the highest number of species containing Cas14-homology proteins, a total of three species. The phylogenetic analysis results demonstrate the division of Cas14-homology proteins into three clades: Cas14-A, Cas14-B, and Cas14-U. Extensive similarity was observed at the C-terminal end (CTD) through a domain comparison of the three clades, suggesting a potentially shared mechanism of action due to the presence of cutting domains in that region. Additionally, a sequence similarity analysis of all the identified Cas14 sequences indicated a low level of similarity (18%) between the protein variants. The analysis of repeats/arrays in the extended nucleotide sequences of the identified Cas14-homology proteins highlighted that 44 out of the total mined proteins possessed CRISPR-associated repeats, with 20 of them being specific to Cas14. Our study contributes to the increased understanding of Cas14 proteins across prokaryotic genomes. These homologous proteins have the potential for future applications in the mining and engineering of Cas14 proteins. [ABSTRACT FROM AUTHOR]
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- 2023
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6. Mosquito (MS), a DD37E Family of Tc1 / Mariner , Displaying a Distinct Evolution Profile from DD37E/ TRT and DD37E/ L18.
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Xiang, Kuilin, Puzakov, Mikhail, Shi, Shasha, Diaby, Mohamed, Ullah, Numan, Gao, Bo, and Song, Chengyi
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MOSQUITOES ,CATALYTIC domains ,CTENOPHORA ,TRANSPOSONS ,CNIDARIA - Abstract
Diverse Tc1/mariner elements with the DD37E signature have been detected. However, their evolutionary relationship and profiles are largely unknown. Using bioinformatics methods, we defined the evolution profile of a Tc1/Mariner family, which harbors the catalytic domain with the DD37E signature, and renamed it DD37E/Mosquito (MS). MS transposons form a separate monophyletic clade in the phylogenetic tree, distinct from the other two groups of elements with the DD37E signature, DD37E/L18 and DD37E/TRT (transposon related to Tc1), and represent a very different taxonomic distribution from that of DD37E/TRT. MS is only detected in invertebrate and is mostly present in Arthropoda, as well as in Cnidaria, Ctenophora, Mollusca, Nematoda, and Platyhelminthes, with a total length of about 1.3 kb, containing an open reading frame (ORF) encoding about 340 amino acids transposases, with a conserved DD37E catalytic domain. The terminal inverted repeat (TIR) lengths range from 19 bp to 203 bp, and the target site duplication (TSD) is TA. We also identified few occurrences of MS horizontal transfers (HT) across lineages of diptera. In this paper, the distribution characteristics, structural characteristics, phylogenetic evolution, and horizontal transfer of the MS family are fully analyzed, which is conducive to supplementing and improving the Tc1/Mariner superfamily and excavating active transposons. [ABSTRACT FROM AUTHOR]
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- 2023
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7. Phylogenetic Relationships among TnpB-Containing Mobile Elements in Six Bacterial Species.
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Wang, Yali, Guo, Mengke, Yang, Naisu, Guan, Zhongxia, Wu, Han, Ullah, Numan, Asare, Emmanuel, Shi, Shasha, Gao, Bo, and Song, Chengyi
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BACTERIAL genomes ,DEINOCOCCUS radiodurans ,ESCHERICHIA coli ,SPECIES ,HELICOBACTER pylori ,CLOSTRIDIOIDES difficile ,SALMONELLA enterica ,ENDONUCLEASES - Abstract
Some families of mobile elements in bacterial genomes encode not only a transposase but also an accessory TnpB gene. This gene has been shown to encode an RNA-guided DNA endonuclease, co-evolving with Y1 transposase and serine recombinase in mobile elements IS605 and IS607. In this paper, we reveal the evolutionary relationships among TnpB-containing mobile elements (TCMEs) in well-assembled genomes of six bacterial species: Bacillus cereus, Clostridioides difficile, Deinococcus radiodurans, Escherichia coli, Helicobacter pylori and Salmonella enterica. In total, 9996 TCMEs were identified in 4594 genomes. They belonged to 39 different insertion sequences (ISs). Based on their genetic structures and sequence identities, the 39 TCMEs were classified into three main groups and six subgroups. According to our phylogenetic analysis, TnpBs include two main branches (TnpB-A and TnpB-B) and two minor branches (TnpB-C and TnpB-D). The key TnpB motifs and the associated Y1 and serine recombinases were highly conserved across species, even though their overall sequence identities were low. Substantial variation was observed for the rate of invasion across bacterial species and strains. Over 80% of the genomes of B. cereus, C. difficile, D. radiodurans and E. coli contained TCMEs; however, only 64% of the genomes of H. pylori and 44% of S. enterica genomes contained TCMEs. IS605 showed the largest rate of invasion in these species, while IS607 and IS1341 had a relatively narrow distribution. Co-invasions of IS605, IS607 and IS1341 elements were observed in various genomes. The largest average copy number was observed for IS605b elements in C. difficile. The average copy numbers of most other TCMEs were smaller than four. Our findings have important implications for understanding the co-evolution of TnpB-containing mobile elements and their biological roles in host genome evolution. [ABSTRACT FROM AUTHOR]
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- 2023
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8. A New Mathematical Model of COVID-19 with Quarantine and Vaccination.
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Haq, Ihtisham Ul, Ullah, Numan, Ali, Nigar, and Nisar, Kottakkaran Sooppy
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COVID-19 vaccines , *BASIC reproduction number , *MATHEMATICAL models , *INFECTIOUS disease transmission , *THERAPEUTICS - Abstract
A mathematical model revealing the transmission mechanism of COVID-19 is produced and theoretically examined, which has helped us address the disease dynamics and treatment measures, such as vaccination for susceptible patients. The mathematical model containing the whole population was partitioned into six different compartments, represented by the SVEIQR model. Important properties of the model, such as the nonnegativity of solutions and their boundedness, are established. Furthermore, we calculated the basic reproduction number, which is an important parameter in infection models. The disease-free equilibrium solution of the model was determined to be locally and globally asymptotically stable. When the basic reproduction number R 0 is less than one, the disease-free equilibrium point is locally asymptotically stable. To discover the approximative solution to the model, a general numerical approach based on the Haar collocation technique was developed. Using some real data, the sensitivity analysis of R 0 was shown. We simulated the approximate results for various values of the quarantine and vaccination populations using Matlab to show the transmission dynamics of the Coronavirus-19 disease through graphs. The validation of the results by the Simulink software and numerical methods shows that our model and adopted methodology are appropriate and accurate and could be used for further predictions for COVID-19. [ABSTRACT FROM AUTHOR]
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- 2023
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9. Genome-Wide Association Study for Udder Conformation Traits in Chinese Holstein Cattle.
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Nazar, Mudasir, Abdalla, Ismail Mohamed, Chen, Zhi, Ullah, Numan, Liang, Yan, Chu, Shuangfeng, Xu, Tianle, Mao, Yongjiang, Yang, Zhangping, and Lu, Xubin
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HOLSTEIN-Friesian cattle ,GENOME-wide association studies ,DAIRY cattle ,HEALTH of cattle ,SINGLE nucleotide polymorphisms ,PRODUCTION losses ,CATTLE genetics ,MILK yield - Abstract
Simple Summary: Udder conformation traits are economically important for dairy animals in the dairy industry. Milk production loss can be reduced via a better udder structure in dairy cattle. Udder traits are related to milk production and the somatic cell count, which is a sign of mammary infections (mastitis); as such, it is vital to understand the genetic architecture underlying udder traits in Holstein Friesian cattle for genetic development and long-term selection. Through a GWAS on udder structure traits in Chinese Holstein cattle, we identified several significant single-nucleotide polymorphisms (SNPs) and candidate genes associated with udder traits. The results could provide useful information regarding the genetics architecture of udder structure traits, thus improving the genetic information, health, longevity, and production of dairy cattle. Udder conformation traits are one of the most economic traits in dairy cows, greatly affecting animal health, milk production, and producer profitability in the dairy industry. Genetic analysis of udder structure and scores have been developed in Holstein cattle. In our research, we conducted a genome-wide association study for five udder traits, including anterior udder attachment (AUA), central suspensory ligament (CSL), posterior udder attachment height (PUAH), posterior udder attachment width (PUAW), and udder depth (UD), in which the fixed and random model circulating probability unification (FarmCPU) model was applied for the association analysis. The heritability and the standard errors of these five udder traits ranged from 0.04 ± 0.00 to 0.49 ± 0.03. Phenotype data were measured from 1000 Holstein cows, and the GeneSeek Genomic Profiler (GGP) Bovine 100 K SNP chip was used to analyze genotypic data in Holstein cattle. For GWAS analysis, 984 individual cows and 84,407 single-nucleotide polymorphisms (SNPs) remained after quality control; a total of 18 SNPs were found at the GW significant threshold (p < 5.90 × 10
−7 ). Many candidate genes were identified within 200kb upstream or downstream of the significant SNPs, which include MGST1, MGST2, MTUS1, PRKN, STXBP6, GRID2, E2F8, CDH11, FOXP1, SLF1, TMEM117, SBF2, GC, ADGRB3, and GCLC. Pathway analysis revealed that 58 Gene Ontology (GO) terms and 18 Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways were enriched with adjusted p values, and these GO terms and the KEGG pathway analysis were associated with biological information, metabolism, hormonal growth, and development processes. These results could give valuable biological information for the genetic architecture of udder conformation traits in dairy Holstein cattle. [ABSTRACT FROM AUTHOR]- Published
- 2022
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10. Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes.
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Diaby, Mohamed, Guan, Zhongxia, Shi, Shasha, Sang, Yatong, Wang, Saisai, Wang, Yali, Zong, Wencheng, Ullah, Numan, Gao, Bo, and Song, Chengyi
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MAMMAL genomes ,TRANSPOSONS ,ANIMAL species ,INTRODUCED species ,SPECIES ,GENOMES - Abstract
Simple Summary: Despite the discovery of the Tigger family of pogo transposons in the mammalian genome, the evolution profile of this family is still incomplete. Here, we conducted a systematic evolution analysis for Tigger in nature. The data revealed that Tigger was found in a broad variety of animals, and extensive invasion of Tigger was observed in mammal genomes. Common horizontal transfer events of Tigger elements were observed across different lineages of animals, including mammals, that may have led to their widespread distribution, while parasites and invasive species may have promoted Tigger HT events. Our results also indicate that the activity of Tigger transposons tends to be low in vertebrates; only one mammalian genome and fish genome may harbor active Tigger. The data of this study revealed that Tigger was found in a wide variety of animal genomes, including 180 species from 36 orders of invertebrates and 145 species from 29 orders of vertebrates. An extensive invasion of Tigger was observed in mammals, with a high copy number. Almost 61% of those species contain more than 50 copies of Tigger; however, 46% harbor intact Tigger elements, although the number of these intact elements is very low. Common HT events of Tigger elements were discovered across different lineages of animals, including mammals, that may have led to their widespread distribution, whereas Helogale parvula and arthropods may have aided Tigger HT incidences. The activity of Tigger seems to be low in the kingdom of animals, most copies were truncated in the mammal genomes and lost their transposition activity, and Tigger transposons only display signs of recent and current activities in a few species of animals. The findings suggest that the Tigger family is important in structuring mammal genomes. [ABSTRACT FROM AUTHOR]
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- 2022
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11. Genome-Wide Association Study Candidate Genes on Mammary System-Related Teat-Shape Conformation Traits in Chinese Holstein Cattle.
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Nazar, Mudasir, Lu, Xubin, Abdalla, Ismail Mohamed, Ullah, Numan, Fan, Yongliang, Chen, Zhi, Arbab, Abdelaziz Adam Idriss, Mao, Yongjiang, and Yang, Zhangping
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SIMMENTAL cattle ,HOLSTEIN-Friesian cattle ,GENOME-wide association studies ,GENES ,SINGLE nucleotide polymorphisms ,CATTLE genetics ,INFORMATION architecture - Abstract
In the dairy industry, mammary system traits are economically important for dairy animals, and it is important to explain their fundamental genetic architecture in Holstein cattle. Good and stable mammary system-related teat traits are essential for producer profitability in animal fitness and in the safety of dairy production. In this study, we conducted a genome-wide association study on three traits—anterior teat position (ATP), posterior teat position (PTP), and front teat length (FTL)—in which the FarmCPU method was used for association analyses. Phenotypic data were collected from 1000 Chinese Holstein cattle, and the GeneSeek Genomic Profiler Bovine 100K single-nucleotide polymorphisms (SNP) chip was used for cattle genotyping data. After the quality control process, 984 individual cattle and 84,406 SNPs remained for GWAS work analysis. Nine SNPs were detected significantly associated with mammary-system-related teat traits after a Bonferroni correction (p < 5.92 × 10
−7 ), and genes within a region of 200 kb upstream or downstream of these SNPs were performed bioinformatics analysis. A total of 36 gene ontology (GO) terms and 3 Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways were significantly enriched (p < 0.05), and these terms and pathways are mainly related to metabolic processes, immune response, and cellular and amino acid catabolic processes. Eleven genes including MMS22L, E2F8, CSRP3, CDH11, PEX26, HAL, TAMM41, HIVEP3, SBF2, MYO16 and STXBP6 were selected as candidate genes that might play roles in the teat traits of cows. These results identify SNPs and candidate genes that give helpful biological information for the genetic architecture of these teat traits, thus contributing to the dairy production, health, and genetic selection of Chinese Holstein cattle. [ABSTRACT FROM AUTHOR]- Published
- 2021
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12. The Role of Metabolic Engineering Technologies for the Production of Fatty Acids in Yeast.
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Ullah, Numan, Shahzad, Khuram, and Wang, Mengzhi
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FATTY acids , *BIOENGINEERING , *PRODUCTION engineering , *YEAST , *FATTY acid derivatives , *SYNTHETIC biology - Abstract
Simple Summary: Metabolic engineering involves the sustainable production of high-value products. E. coli and yeast, in particular, are used for such processes. Using metabolic engineering, the biosynthetic pathways of these cells are altered to obtain a high production of desired products. Fatty acids (FAs) and their derivatives are products produced using metabolic engineering. However, classical methods used for engineering yeast metabolic pathways for the production of fatty acids and their derivatives face problems such as the low supply of key precursors and product tolerance. This review introduces the different ways FAs are being produced in E. coli and yeast and the genetic manipulations for enhanced production of FAs. The review also summarizes the latest techniques (i.e., CRISPR–Cas and synthetic biology) for developing FA-producing yeast cell factories. Metabolic engineering is a cutting-edge field that aims to produce simple, readily available, and inexpensive biomolecules by applying different genetic engineering and molecular biology techniques. Fatty acids (FAs) play an important role in determining the physicochemical properties of membrane lipids and are precursors of biofuels. Microbial production of FAs and FA-derived biofuels has several advantages in terms of sustainability and cost. Conventional yeast Saccharomyces cerevisiae is one of the models used for FA synthesis. Several genetic manipulations have been performed to enhance the citrate accumulation and its conversation into acetyl-CoA, a precursor for FA synthesis. Success has been achieved in producing different chemicals, including FAs and their derivatives, through metabolic engineering. However, several hurdles such as slow growth rate, low oleaginicity, and cytotoxicity are still need to be resolved. More robust research needs to be conducted on developing microbes capable of resisting diverse environments, chemicals, and cost-effective feed requirements. Redesigning microbes to produce FAs with cutting-edge synthetic biology and CRISPR techniques can solve these problems. Here, we reviewed the technological progression of metabolic engineering techniques and genetic studies conducted on S. cerevisiae, making it suitable as a model organism and a great candidate for the production of biomolecules, especially FAs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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13. Characterization and expression pattern of ZB and PS transposons in zebrafish.
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Wang, Yali, Shen, Dan, Ullah, Numan, Diaby, Mohamed, Gao, Bo, and Song, Chengyi
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TRANSPOSONS , *GENE rearrangement , *AMINO acid residues , *BRACHYDANIO , *GENOMICS , *CATALYTIC domains , *EUKARYOTIC genomes - Abstract
Despite comprising much of the genome, transposons were once thought of as junk. However, transposons play many roles in the eukaryotic genome, such as providing new proteins as domesticated genes, expressing during germline-soma differentiation, function in DNA rearrangement in the offspring, and so on. We sought to describe the distribution and structural organization of the two autonomous transposons (ZB and PS) in the zebrafish genome and examine their expression patterns in embryos and adult tissues. The intact copy of ZB and PS was queried by BLAST on NCBI and ENSEMBL using default parameters. Of the copies with coverage and identity, more than 90 % were downloaded to do structural analysis. Spatial and temporal expression patterns were detected by qRT-PCR and Whole-mount in situ hybridization (WISH). There are 19 intact copies of ZB , encoding 341 amino acid residues with DD34E catalytic domain and flanked by 201bp TIRs, and seven intact PS copies, containing 425 amino acid residues with DD35D catalytic domain flanked by 28bp TIRs, were detected in the genome of zebrafish respectively. Analysis of genomic insertions indicated that both ZB and PS transposons are prone to be retained in the intron and intergenic regions of the zebrafish genome. The sense and antisense transcripts of ZB and PS were detected during embryonic development stages and exhibited similar expression patterns. The difference is that the sense strand transcript of ZB was explicitly expressed in midbrain-hindbrain boundary (MHB) and otic vesicle (OV), and pharyngeal arches and pharyngeal pouches (PA&PP) at 48 hpf. In adult zebrafish, the expressions of ZB and PS in muscle and brain are much higher than in other tissues. Our study results indicate that ZB and PS transposons may be involved in the embryonic development and regulation of somatic cells of certain adult tissues, such as the brain and muscle. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
14. Divergent evolution profiles of DD37D and DD39D families of Tc1/mariner transposons in eukaryotes.
- Author
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Wang, Saisai, Diaby, Mohamed, Puzakov, Mikhail, Ullah, Numan, Wang, Yali, Danley, Patrick, Chen, Cai, Wang, Xiaoyan, Gao, Bo, and Song, Chengyi
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TRANSPOSONS , *BASE pairs , *EUKARYOTIC genomes , *DNA structure , *CATALYTIC domains , *DIFFERENTIAL evolution - Abstract
[Display omitted] • maTs , GTs and VSs showed differential evolution patterns in eukaryotes. • DD37D and DD39D family composed an independent clade, with close to DD41D and DD34D. • HT might exist a lower rate of maTs between invertebrates and GTs between land plant. • Most of maTs and GTs might encoded active transposases possess intact characters. DNA transposons play a significant role in shaping the size and structure of eukaryotic genomes. The Tc1/mariner transposons are the most diverse and widely distributed superfamily of DNA transposons and the structure and distribution of several Tc1/mariner families, such as DD35E/ TR , DD36E/ IC , DD37E/ TRT , and DD41D/ VS, have been well studied. Nonetheless, a greater understanding of the structure and diversity of Tc1/mariner transposons will provide insight into the evolutionary history of eukaryotic genomes. Here, we conducted further analysis of DD37D/ maT and DD39D (named Guest , GT), which were identified by the specific catalytic domains DD37D and DD39D. Most transposons of the maT family have a total length of approximately 1.3 kb and harbor a single open reading frame encoding a ~ 346 amino acid (range 302–398 aa) transposase protein, flanked by short terminal inverted repeats (TIRs) (13–48 base pairs, bp). In contrast, GT s transposons were longer (2.0–5.8 kb), encoded a transposase protein of ~400 aa (range 140–592 aa), and were flanked by short TIRs (19–41 bp). Several conserved motifs, including two helix–turn–helix (HTH) motifs, a GRPR (GRKR) motif, a nuclear localization sequence, and a DDD domain, were also identified in maT and GT transposases. Phylogenetic analyses of the DDD domain showed that the maT and GT families each belong to a monophyletic clade and appear to be closely related to DD41D/ VS and DD34D/ mariner. In addition, maT s are mainly distributed in invertebrates (144 species), whereas GT s are mainly distributed in land plants through a small number of GT s are present in Chromista and animals. Sequence identity and phylogenetic analysis revealed that horizontal transfer (HT) events of maT and GT might occur between kingdoms and phyla of eukaryotes; however, pairwise distance comparisons between host genes and transposons indicated that HT events involving maT s might be less frequent between invertebrate species and HT events involving GT s may be less frequent between land plant species. Overall, the DD37D/ maT and DD39D/ GT families display significantly different distribution and tend to be identified in more ancient evolutionary families. The discovery of intact transposases, perfect TIRs, and target site duplications (TSD) of maT s and GT s illustrates that the DD37D/ maT and DD39D/ GT families may be active. Together, these findings improve our understanding of the diversity of Tc1 / mariner transposons and their impact on eukaryotic genome evolution. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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15. The Annotation of Zebrafish Enhancer Trap Lines Generated with PB Transposon.
- Author
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Jia W, Guan Z, Shi S, Xiang K, Chen P, Tan F, Ullah N, Diaby M, Guo M, Song C, and Gao B
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An enhancer trap (ET) mediated by a transposon is an effective method for functional gene research. Here, an ET system based on a PB transposon that carries a mini Krt4 promoter (the keratin4 minimal promoter from zebrafish) and the green fluorescent protein gene ( GFP ) has been used to produce zebrafish ET lines. One enhancer trap line with eye-specific expression GFP named EYE was used to identify the trapped enhancers and genes. Firstly, GFP showed a temporal and spatial expression pattern with whole-embryo expression at 6, 12, and 24 hpf stages and eye-specific expression from 2 to 7 dpf. Then, the genome insertion sites were detected by splinkerette PCR (spPCR). The Krt4- GFP was inserted into the fourth intron of the gene itgav ( integrin , alpha V ) in chromosome 9 of the zebrafish genome, with the GFP direction the same as that of the itgav gene. By the alignment of homologous gene sequences in different species, three predicted endogenous enhancers were obtained. The trapped endogenous gene itgav, whose overexpression is related to hepatocellular carcinoma, showed a similar expression pattern as GFP detected by in situ hybridization, which suggested that GFP and itgav were possibly regulated by the same enhancers. In short, the zebrafish enhancer trap lines generated by the PB transposon-mediated enhancer trap technology in this study were valuable resources as visual markers to study the regulators and genes. This work provides an efficient method to identify and isolate tissue-specific enhancer sequences.
- Published
- 2022
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