Your search keyword '"Gu, Yong"' showing total 26 results

1. Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation

Author

Wang, Le, Zhu, Tingting, Rodriguez, Juan C, Deal, Karin R, Dubcovsky, Jorge, McGuire, Patrick E, Lux, Thomas, Spannagl, Manuel, Mayer, Klaus FX, Baldrich, Patricia, Meyers, Blake C, Huo, Naxin, Gu, Yong Q, Zhou, Hongye, Devos, Katrien M, Bennetzen, Jeffrey L, Unver, Turgay, Budak, Hikmet, Gulick, Patrick J, Galiba, Gabor, Kalapos, Balázs, Nelson, David R, Li, Pingchuan, You, Frank M, Luo, Ming-Cheng, and Dvorak, Jan

Subjects

Genetics, Human Genome, Biotechnology, Aegilops, Genome, Plant, Plant Breeding, Poaceae, Triticum, disease resistance, miRNA, phasiRNA, hc-siRNA, tRNA, tRF, transposable elements, optical map, Pacific Biosciences

Abstract

Aegilops tauschii is the donor of the D subgenome of hexaploid wheat and an important genetic resource. The reference-quality genome sequence Aet v4.0 for Ae. tauschii acc. AL8/78 was therefore an important milestone for wheat biology and breeding. Further advances in sequencing acc. AL8/78 and release of the Aet v5.0 sequence assembly are reported here. Two new optical maps were constructed and used in the revision of pseudomolecules. Gaps were closed with Pacific Biosciences long-read contigs, decreasing the gap number by 38,899. Transposable elements and protein-coding genes were reannotated. The number of annotated high-confidence genes was reduced from 39,635 in Aet v4.0 to 32,885 in Aet v5.0. A total of 2245 biologically important genes, including those affecting plant phenology, grain quality, and tolerance of abiotic stresses in wheat, was manually annotated and disease-resistance genes were annotated by a dedicated pipeline. Disease-resistance genes encoding nucleotide-binding site domains, receptor-like protein kinases, and receptor-like proteins were preferentially located in distal chromosome regions, whereas those encoding transmembrane coiled-coil proteins were dispersed more evenly along the chromosomes. Discovery, annotation, and expression analyses of microRNA (miRNA) precursors, mature miRNAs, and phasiRNAs are reported, including miRNA target genes. Other small RNAs, such as hc-siRNAs and tRFs, were characterized. These advances enhance the utility of the Ae. tauschii genome sequence for wheat genetics, biotechnology, and breeding.

Published

2021

2. GrainGenes: centralized small grain resources and digital platform for geneticists and breeders.

Author

Blake, Victoria C, Woodhouse, Margaret R, Lazo, Gerard R, Odell, Sarah G, Wight, Charlene P, Tinker, Nicholas A, Wang, Yi, Gu, Yong Q, Birkett, Clay L, Jannink, Jean-Luc, Matthews, Dave E, Hane, David L, Michel, Steve L, Yao, Eric, and Sen, Taner Z

Subjects

Poaceae, Genome, Plant, Quantitative Trait Loci, Databases, Genetic, Edible Grain, Plant Breeding, Genetics, Human Genome, Data Format, Library and Information Studies

Abstract

GrainGenes (https://wheat.pw.usda.gov or https://graingenes.org) is an international centralized repository for curated, peer-reviewed datasets useful to researchers working on wheat, barley, rye and oat. GrainGenes manages genomic, genetic, germplasm and phenotypic datasets through a dynamically generated web interface for facilitated data discovery. Since 1992, GrainGenes has served geneticists and breeders in both the public and private sectors on six continents. Recently, several new datasets were curated into the database along with new tools for analysis. The GrainGenes homepage was enhanced by making it more visually intuitive and by adding links to commonly used pages. Several genome assemblies and genomic tracks are displayed through the genome browsers at GrainGenes, including the Triticum aestivum (bread wheat) cv. 'Chinese Spring' IWGSC RefSeq v1.0 genome assembly, the Aegilops tauschii (D genome progenitor) Aet v4.0 genome assembly, the Triticum turgidum ssp. dicoccoides (wild emmer wheat) cv. 'Zavitan' WEWSeq v.1.0 genome assembly, a T. aestivum (bread wheat) pangenome, the Hordeum vulgare (barley) cv. 'Morex' IBSC genome assembly, the Secale cereale (rye) select 'Lo7' assembly, a partial hexaploid Avena sativa (oat) assembly and the Triticum durum cv. 'Svevo' (durum wheat) RefSeq Release 1.0 assembly. New genetic maps and markers were added and can be displayed through CMAP. Quantitative trait loci, genetic maps and genes from the Wheat Gene Catalogue are indexed and linked through the Wheat Information System (WheatIS) portal. Training videos were created to help users query and reach the data they need. GSP (Genome Specific Primers) and PIECE2 (Plant Intron Exon Comparison and Evolution) tools were implemented and are available to use. As more small grains reference sequences become available, GrainGenes will play an increasingly vital role in helping researchers improve crops.

Published

2019

3. Reassessment of the evolution of wheat chromosomes 4A, 5A, and 7B

Author

Dvorak, Jan, Wang, Le, Zhu, Tingting, Jorgensen, Chad M, Luo, Ming-Cheng, Deal, Karin R, Gu, Yong Q, Gill, Bikram S, Distelfeld, Assaf, Devos, Katrien M, Qi, Peng, and McGuire, Patrick E

Subjects

Genetics, Human Genome, Chromosome Inversion, Chromosome Mapping, Chromosomes, Plant, DNA, Satellite, Evolution, Molecular, Genome, Plant, Poaceae, Translocation, Genetic, Triticum, Biological Sciences, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany

Abstract

Key messageComparison of genome sequences of wild emmer wheat and Aegilops tauschii suggests a novel scenario of the evolution of rearranged wheat chromosomes 4A, 5A, and 7B. Past research suggested that wheat chromosome 4A was subjected to a reciprocal translocation T(4AL;5AL)1 that occurred in the diploid progenitor of the wheat A subgenome and to three major rearrangements that occurred in polyploid wheat: pericentric inversion Inv(4AS;4AL)1, paracentric inversion Inv(4AL;4AL)1, and reciprocal translocation T(4AL;7BS)1. Gene collinearity along the pseudomolecules of tetraploid wild emmer wheat (Triticum turgidum ssp. dicoccoides, subgenomes AABB) and diploid Aegilops tauschii (genomes DD) was employed to confirm these rearrangements and to analyze the breakpoints. The exchange of distal regions of chromosome arms 4AS and 4AL due to pericentric inversion Inv(4AS;4AL)1 was detected, and breakpoints were validated with an optical Bionano genome map. Both breakpoints contained satellite DNA. The breakpoints of reciprocal translocation T(4AL;7BS)1 were also found. However, the breakpoints that generated paracentric inversion Inv(4AL;4AL)1 appeared to be collocated with the 4AL breakpoints that had produced Inv(4AS;4AL)1 and T(4AL;7BS)1. Inv(4AS;4AL)1, Inv(4AL;4AL)1, and T(4AL;7BS)1 either originated sequentially, and Inv(4AL;4AL)1 was produced by recurrent chromosome breaks at the same breakpoints that generated Inv(4AS;4AL)1 and T(4AL;7BS)1, or Inv(4AS;4AL)1, Inv(4AL;4AL)1, and T(4AL;7BS)1 originated simultaneously. We prefer the latter hypothesis since it makes fewer assumptions about the sequence of events that produced these chromosome rearrangements.

Published

2018

4. Genome sequence of the progenitor of the wheat D genome Aegilops tauschii

Author

Luo, Ming-Cheng, Gu, Yong Q, Puiu, Daniela, Wang, Hao, Twardziok, Sven O, Deal, Karin R, Huo, Naxin, Zhu, Tingting, Wang, Le, Wang, Yi, McGuire, Patrick E, Liu, Shuyang, Long, Hai, Ramasamy, Ramesh K, Rodriguez, Juan C, Van, Sonny L, Yuan, Luxia, Wang, Zhenzhong, Xia, Zhiqiang, Xiao, Lichan, Anderson, Olin D, Ouyang, Shuhong, Liang, Yong, Zimin, Aleksey V, Pertea, Geo, Qi, Peng, Bennetzen, Jeffrey L, Dai, Xiongtao, Dawson, Matthew W, Müller, Hans-Georg, Kugler, Karl, Rivarola-Duarte, Lorena, Spannagl, Manuel, Mayer, Klaus FX, Lu, Fu-Hao, Bevan, Michael W, Leroy, Philippe, Li, Pingchuan, You, Frank M, Sun, Qixin, Liu, Zhiyong, Lyons, Eric, Wicker, Thomas, Salzberg, Steven L, Devos, Katrien M, and Dvořák, Jan

Subjects

Biological Sciences, Genetics, Chromosome Mapping, Diploidy, Evolution, Molecular, Gene Duplication, Genes, Plant, Genome, Plant, Genomics, Phylogeny, Poaceae, Recombination, Genetic, Sequence Analysis, DNA, Triticum, General Science & Technology

Abstract

Aegilops tauschii is the diploid progenitor of the D genome of hexaploid wheat (Triticum aestivum, genomes AABBDD) and an important genetic resource for wheat. The large size and highly repetitive nature of the Ae. tauschii genome has until now precluded the development of a reference-quality genome sequence. Here we use an array of advanced technologies, including ordered-clone genome sequencing, whole-genome shotgun sequencing, and BioNano optical genome mapping, to generate a reference-quality genome sequence for Ae. tauschii ssp. strangulata accession AL8/78, which is closely related to the wheat D genome. We show that compared to other sequenced plant genomes, including a much larger conifer genome, the Ae. tauschii genome contains unprecedented amounts of very similar repeated sequences. Our genome comparisons reveal that the Ae. tauschii genome has a greater number of dispersed duplicated genes than other sequenced genomes and its chromosomes have been structurally evolving an order of magnitude faster than those of other grass genomes. The decay of colinearity with other grass genomes correlates with recombination rates along chromosomes. We propose that the vast amounts of very similar repeated sequences cause frequent errors in recombination and lead to gene duplications and structural chromosome changes that drive fast genome evolution.

Published

2017

5. Sequencing and functional validation of the JGI Brachypodium distachyon T‐DNA collection

Author

Hsia, Mon Mandy, O'Malley, Ronan, Cartwright, Amy, Nieu, Rita, Gordon, Sean P, Kelly, Sandra, Williams, Tina G, Wood, Delilah F, Zhao, Yunjun, Bragg, Jennifer, Jordan, Mark, Pauly, Markus, Ecker, Joseph R, Gu, Yong, and Vogel, John P

Subjects

Biological Sciences, Genetics, Human Genome, Biotechnology, Brachypodium, DNA Damage, DNA, Bacterial, Genome, Plant, Genomics, Introns, Mutagenesis, Insertional, Plants, Genetically Modified, insertional mutagenesis, Brachypodium distachyon, functional genomics, T-DNA, mutant sequencing, model grass, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany, Biochemistry and cell biology, Plant biology

Abstract

Due to a large and growing collection of genomic and experimental resources, Brachypodium distachyon has emerged as a powerful experimental model for the grasses. To add to these resources we sequenced 21 165 T-DNA lines, 15 569 of which were produced in this study. This increased the number of unique insertion sites in the T-DNA collection by 21 078, bringing the overall total to 26 112. Thirty-seven per cent (9754) of these insertion sites are within genes (including untranslated regions and introns) and 28% (7217) are within 500 bp of a gene. Approximately 31% of the genes in the v.2.1 annotation have been tagged in this population. To demonstrate the utility of this collection, we phenotypically characterized six T-DNA lines with insertions in genes previously shown in other systems to be involved in cellulose biosynthesis, hemicellulose biosynthesis, secondary cell wall development, DNA damage repair, wax biosynthesis and chloroplast synthesis. In all cases, the phenotypes observed supported previous studies, demonstrating the utility of this collection for plant functional genomics. The Brachypodium T-DNA collection can be accessed at http://jgi.doe.gov/our-science/science-programs/plant-genomics/brachypodium/brachypodium-t-dna-collection/.

Published

2017

6. Genome resources for climate-resilient cowpea, an essential crop for food security.

Author

Muñoz-Amatriaín, María, Mirebrahim, Hamid, Xu, Pei, Wanamaker, Steve I, Luo, MingCheng, Alhakami, Hind, Alpert, Matthew, Atokple, Ibrahim, Batieno, Benoit J, Boukar, Ousmane, Bozdag, Serdar, Cisse, Ndiaga, Drabo, Issa, Ehlers, Jeffrey D, Farmer, Andrew, Fatokun, Christian, Gu, Yong Q, Guo, Yi-Ning, Huynh, Bao-Lam, Jackson, Scott A, Kusi, Francis, Lawley, Cynthia T, Lucas, Mitchell R, Ma, Yaqin, Timko, Michael P, Wu, Jiajie, You, Frank, Barkley, Noelle A, Roberts, Philip A, Lonardi, Stefano, and Close, Timothy J

Subjects

Chromosomes, Artificial, Bacterial, Chromosomes, Plant, Crops, Agricultural, Climate, Genotype, Genome, Plant, Food Supply, Vigna, BAC sequencing, Phaseolus vulgaris L., Vigna unguiculata L. Walp., WGS sequencing, West Africa, consensus genetic map, cowpea, genetic anchoring, iSelect genotyping array, synteny, Genetics, Biotechnology, Zero Hunger, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany

Abstract

Cowpea (Vigna unguiculata L. Walp.) is a legume crop that is resilient to hot and drought-prone climates, and a primary source of protein in sub-Saharan Africa and other parts of the developing world. However, genome resources for cowpea have lagged behind most other major crops. Here we describe foundational genome resources and their application to the analysis of germplasm currently in use in West African breeding programs. Resources developed from the African cultivar IT97K-499-35 include a whole-genome shotgun (WGS) assembly, a bacterial artificial chromosome (BAC) physical map, and assembled sequences from 4355 BACs. These resources and WGS sequences of an additional 36 diverse cowpea accessions supported the development of a genotyping assay for 51 128 SNPs, which was then applied to five bi-parental RIL populations to produce a consensus genetic map containing 37 372 SNPs. This genetic map enabled the anchoring of 100 Mb of WGS and 420 Mb of BAC sequences, an exploration of genetic diversity along each linkage group, and clarification of macrosynteny between cowpea and common bean. The SNP assay enabled a diversity analysis of materials from West African breeding programs. Two major subpopulations exist within those materials, one of which has significant parentage from South and East Africa and more diversity. There are genomic regions of high differentiation between subpopulations, one of which coincides with a cluster of nodulin genes. The new resources and knowledge help to define goals and accelerate the breeding of improved varieties to address food security issues related to limited-input small-holder farming and climate stress.

Published

2017

7. WheatExp: an RNA-seq expression database for polyploid wheat.

Author

Pearce, Stephen, Vazquez-Gross, Hans, Herin, Sayer Y, Hane, David, Wang, Yi, Gu, Yong Q, and Dubcovsky, Jorge

Subjects

Chromosomes, Plant, Triticum, RNA, Plant, Gene Expression Regulation, Plant, Polyploidy, Databases, Nucleic Acid, Expression, Wheat, RNA-seq, Homoeologue-specific, WheatExp, Chromosomes, Plant, RNA, Gene Expression Regulation, Databases, Nucleic Acid, Genetics, Human Genome, Biotechnology, Plant Biology & Botany, Microbiology, Plant Biology, Crop and Pasture Production

Abstract

BackgroundFor functional genomics studies, it is important to understand the dynamic expression profiles of transcribed genes in different tissues, stages of development and in response to environmental stimuli. The proliferation in the use of next-generation sequencing technologies by the plant research community has led to the accumulation of large volumes of expression data. However, analysis of these datasets is complicated by the frequent occurrence of polyploidy among economically-important crop species. In addition, processing and analyzing such large volumes of sequence data is a technical and time-consuming task, limiting their application in functional genomics studies, particularly for smaller laboratories which lack access to high-powered computing infrastructure. Wheat is a good example of a young polyploid species with three similar genomes (97 % identical among homoeologous genes), rapidly accumulating RNA-seq datasets and a large research community.DescriptionWe present WheatExp, an expression database and visualization tool to analyze and compare homoeologue-specific transcript profiles across a broad range of tissues from different developmental stages in polyploid wheat. Beginning with publicly-available RNA-seq datasets, we developed a pipeline to distinguish between homoeologous transcripts from annotated genes in tetraploid and hexaploid wheat. Data from multiple studies is processed and compiled into a database which can be queried either by BLAST or by searching for a known gene of interest by name or functional domain. Expression data of multiple genes can be displayed side-by-side across all expression datasets providing immediate access to a comprehensive panel of expression data for specific subsets of wheat genes.ConclusionsThe development of a publicly accessible expression database hosted on the GrainGenes website - http://wheat.pw.usda.gov/WheatExp/ - coupled with a simple and readily-comparable visualization tool will empower the wheat research community to use RNA-seq data and to perform functional analyses of target genes. The presented expression data is homoeologue-specific allowing for the analysis of relative contributions from each genome to the overall expression of a gene, a critical consideration for breeding applications. Our approach can be expanded to other polyploid species by adjusting sequence mapping parameters according to the specific divergence of their genomes.

Published

2015

8. Fine Mapping of the Bsr1 Barley Stripe Mosaic Virus Resistance Gene in the Model Grass Brachypodium distachyon

Author

Cui, Yu, Lee, Mi Yeon, Huo, Naxin, Bragg, Jennifer, Yan, Lijie, Yuan, Cheng, Li, Cui, Holditch, Sara J, Xie, Jingzhong, Luo, Ming-Cheng, Li, Dawei, Yu, Jialin, Martin, Joel, Schackwitz, Wendy, Gu, Yong Qiang, Vogel, John P, Jackson, Andrew O, Liu, Zhiyong, and Garvin, David F

Subjects

Genetics, Infection, Brachypodium, Chromosome Breakage, Chromosome Segregation, Chromosomes, Plant, Disease Resistance, Genes, Plant, Genetic Linkage, Genetic Markers, Genotype, Geography, Hordeum, INDEL Mutation, Inbreeding, Models, Biological, Mosaic Viruses, Phenotype, Physical Chromosome Mapping, Plant Diseases, Polymorphism, Single Nucleotide, Recombination, Genetic, Temperature, Turkey, General Science & Technology

Abstract

The ND18 strain of Barley stripe mosaic virus (BSMV) infects several lines of Brachypodium distachyon, a recently developed model system for genomics research in cereals. Among the inbred lines tested, Bd3-1 is highly resistant at 20 to 25 °C, whereas Bd21 is susceptible and infection results in an intense mosaic phenotype accompanied by high levels of replicating virus. We generated an F(6:7) recombinant inbred line (RIL) population from a cross between Bd3-1 and Bd21 and used the RILs, and an F(2) population of a second Bd21 × Bd3-1 cross to evaluate the inheritance of resistance. The results indicate that resistance segregates as expected for a single dominant gene, which we have designated Barley stripe mosaic virus resistance 1 (Bsr1). We constructed a genetic linkage map of the RIL population using SNP markers to map this gene to within 705 Kb of the distal end of the top of chromosome 3. Additional CAPS and Indel markers were used to fine map Bsr1 to a 23 Kb interval containing five putative genes. Our study demonstrates the power of using RILs to rapidly map the genetic determinants of BSMV resistance in Brachypodium. Moreover, the RILs and their associated genetic map, when combined with the complete genomic sequence of Brachypodium, provide new resources for genetic analyses of many other traits.

Published

2012

9. Genomic organization of the complex alpha-gliadin gene loci in wheat.

Author

Gu, Yong Qiang, Crossman, Curt, Kong, Xiuying, Luo, Mingcheng, You, Frank M, Coleman-Derr, Devin, Dubcovsky, Jorge, and Anderson, Olin D

Subjects

Chromosomes, Artificial, Bacterial, Triticum, Gliadin, Retroelements, DNA Primers, Blotting, Southern, DNA Fingerprinting, Sequence Analysis, DNA, Evolution, Molecular, Base Sequence, Gene Library, Genome, Plant, Molecular Sequence Data, Genetics, Human Genome, Biotechnology, Biological Sciences, Agricultural and Veterinary Sciences, Technology, Plant Biology & Botany

Abstract

To better understand the molecular evolution of the large alpha-gliadin gene family, a half-million bacterial artificial chromosome (BAC) library clones from tetraploid durum wheat, Triticum turgidum ssp. durum (2n = 4x = 28, genome AB), were screened for large genomic segments carrying the alpha-gliadin genes of the Gli-2 loci on the group 6 homoeologous chromosomes. The resulting 220 positive BAC clones--each containing between one and four copies of alpha-gliadin sequences--were fingerprinted for contig assembly to produce contiguous chromosomal regions covering the Gli-2 loci. While contigs consisting of as many as 21 BAC clones and containing up to 17 alpha-gliadin genes were formed, many BAC clones remained as singletons. The accuracy of the order of BAC clones in the contigs was verified by Southern hybridization analysis of the BAC fingerprints using an alpha-gliadin probe. These results indicate that alpha-gliadin genes are not evenly dispersed in the Gli-2 locus regions. Hybridization of these BACs with probes for long terminal repeat retrotransposons was used to determine the abundance and distribution of repetitive DNA in this region. Sequencing of BAC ends indicated that 70% of the sequences were significantly similar to different classes of retrotransposons, suggesting that these elements are abundant in this region. Several mechanisms underlying the dynamic evolution of the Gli-2 loci are discussed.

Published

2004

10. Dynamics of the evolution of orthologous and paralogous portions of a complex locus region in two genomes of allopolyploid wheat

Author

Kong, Xiu-Ying, Gu, Yong Qiang, You, Frank M, Dubcovsky, Jorge, and Anderson, Olin D

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Base Sequence, Chromosomes, Artificial, Bacterial, Chromosomes, Plant, Cloning, Molecular, DNA, Plant, Evolution, Molecular, Gene Order, Genome, Plant, Globulins, Molecular Sequence Data, Plant Proteins, Polyploidy, Repetitive Sequences, Nucleic Acid, Retroelements, Sequence Analysis, DNA, Triticum, bacterial artificial chromosome, evolution, glutenin, retrotransposons, sequence, wheat, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany, Plant biology

Abstract

Two overlapping bacterial artificial chromosome (BAC) clones from the B genome of the tetraploid wheat Triticum turgidum were identified, each of which contains one of the two high-molecular-weight (HMW) glutenin genes, comprising the complex Glu-B1 locus. The complete sequence (285 506 bp of DNA) of this chromosomal region was determined. The two paralogous x-type ( Glu-1-1 ) and y-type ( Glu-1-2 ) HMW-glutenin genes of the complex Glu-B1 locus were found to be separated by ca. 168 000 bp instead of the 51 000 bp separation previously reported for the orthologous Glu-D1 locus of Aegilops tauschii, the D-genome donor of hexaploid wheat. This difference in intergene spacing is due almost entirely to be the insertion of clusters of nested retrotransposons. Otherwise, the orientation and order of the HMW glutenins and adjacent genes were identical in the two genomes. A comparison of these orthologous regions indicates modes and patterns of sequence divergence, with implications for the overall Triticeae genome structure and evolution. A duplicate globulin gene, found 5' of each HMW-glutenin gene, assists to tentatively define the original duplication event leading to the paralogous x- and y-type HMW-glutenin genes. The intergenic regions of the two loci are composed of different patterns and classes of retrotransposons, indicating that insertion times of these retroelements were after the divergence of the two wheat genomes. In addition, a putative receptor kinase gene near the y-type HMW-glutenin gene at the Glu-B1 locus is likely active as it matches recently reported ESTs from germinating barley endosperm. The presence of four genes represented only in the Triticeae endosperm ESTs suggests an endosperm-specific chromosome domain.

Published

2004

11. Icariside II protects cardiomyocytes from hypoxia-induced injury by upregulating the miR-7-5p/BTG2 axis and activating the PI3K/Akt signaling pathway

Author

Dongxia Hu, Juanjuan Zhang, Gu Yong, Qing Li, Bo Zhu, Dan Wu, Zhen Yuan, Shaochuan Li, and Jun Luo

Subjects

Cell Survival, Cell, icariside II, Myocardial Infarction, Apoptosis, cardiomyocyte, Flow cytometry, Immediate-Early Proteins, Phosphatidylinositol 3-Kinases, Downregulation and upregulation, Genetics, medicine, Animals, Myocytes, Cardiac, PI3K/AKT/mTOR pathway, Cells, Cultured, Flavonoids, PI3K/Akt, BTG2, medicine.diagnostic_test, Chemistry, Akt/PKB signaling pathway, hypoxia, Tumor Suppressor Proteins, General Medicine, Articles, Cell biology, Rats, Up-Regulation, microRNA-7-5p, Blot, MicroRNAs, medicine.anatomical_structure, BTG anti-proliferation factor 2, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

Icariside II (ICS II) has been reported to have protective effects against oxidative stress. However, whether ICS II protects cardiomyocytes from myocardial infarction (MI), and the associated underlying mechanisms, remain to be elucidated. Therefore, the current study investigated the effects of ICS II on hypoxia‑injured H9c2 cells, as well as the associated molecular mechanisms. A hypoxic injury model was established to emulate the effects of MI. The effects of ICS II on the proliferation of rat cardiomyocyte H9c2 cells were assessed with cell counting kit‑8 assays. The apoptotic status of the cells was assessed by flow cytometry, and the expression of apoptosis‑related proteins was analyzed by western blotting. A microRNA (miRNA/miR) microarray was used to quantify the differential expression of miRNAs after ICS II treatment, and the levels of miR‑7‑5p were further quantified by reverse transcription‑quantitative PCR. Whether ICS II affected hypoxia‑injured cells via miR‑7‑5p was subsequently examined, and the target of miR‑7‑5p was also investigated by bioinformatics analysis and luciferase reporter assays. The effects of ICS II on the PI3K/Akt pathway were then evaluated by western blot analysis. Hypoxia treatment decreased viability and the migration and invasion abilities of H9c2 cells, and also induced apoptosis. ICS II significantly increased viability and reduced hypoxia‑associated apoptosis. Moreover, ICS II treatment led to the upregulation of miR‑7‑5p, and the protective effects of ICS II were found to rely on miR‑7‑5p. Moreover, BTG anti‑proliferation factor (BTG2) was identified as a direct target of miR‑7‑5p, and overexpression of BTG2 inhibited the protective effects of miR‑7‑5p. Finally, ICS II treatment resulted in the activation of the PI3K/Akt signaling pathway, which is essential for the survival of H9c2 cells under hypoxic conditions. In summary, ICS II reduces hypoxic injury in H9c2 cells via the miR‑7‑5p/BTG2 axis and activation of the PI3K/Akt signaling pathway.

Published

2020

12. Physical mapping resources for large plant genomes: radiation hybrids for wheat D-genome progenitor Aegilops tauschii

Author

Kumar Ajay, Simons Kristin, Iqbal Muhammad J, de Jiménez Monika, Bassi Filippo M, Ghavami Farhad, Al-Azzam Omar, Drader Thomas, Wang Yi, Luo Ming-Cheng, Gu Yong Q, Denton Anne, Lazo Gerard R, Xu Steven S, Dvorak Jan, Kianian Penny MA, and Kianian Shahryar F

Subjects

Aegilops tauschii, Genetically effective cell number, Physical mapping, Radiation hybrid mapping, Repeat DNA junction marker, Wheat, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Development of a high quality reference sequence is a daunting task in crops like wheat with large (~17Gb), highly repetitive (>80%) and polyploid genome. To achieve complete sequence assembly of such genomes, development of a high quality physical map is a necessary first step. However, due to the lack of recombination in certain regions of the chromosomes, genetic mapping, which uses recombination frequency to map marker loci, alone is not sufficient to develop high quality marker scaffolds for a sequence ready physical map. Radiation hybrid (RH) mapping, which uses radiation induced chromosomal breaks, has proven to be a successful approach for developing marker scaffolds for sequence assembly in animal systems. Here, the development and characterization of a RH panel for the mapping of D-genome of wheat progenitor Aegilops tauschii is reported. Results Radiation dosages of 350 and 450 Gy were optimized for seed irradiation of a synthetic hexaploid (AABBDD) wheat with the D-genome of Ae. tauschii accession AL8/78. The surviving plants after irradiation were crossed to durum wheat (AABB), to produce pentaploid RH1s (AABBD), which allows the simultaneous mapping of the whole D-genome. A panel of 1,510 RH1 plants was obtained, of which 592 plants were generated from the mature RH1 seeds, and 918 plants were rescued through embryo culture due to poor germination (1 seeds. This panel showed a homogenous marker loss (2.1%) after screening with SSR markers uniformly covering all the D-genome chromosomes. Different marker systems mostly detected different lines with deletions. Using markers covering known distances, the mapping resolution of this RH panel was estimated to be cM/cR ratio of 1:5.2 and 15 distinct bins. Additionally, with this small set of lines, almost all the tested ESTs could be mapped. A set of 399 most informative RH lines with an average deletion frequency of ~10% were identified for developing high density marker scaffolds of the D-genome. Conclusions The RH panel reported here is the first developed for any wild ancestor of a major cultivated plant species. The results provided insight into various aspects of RH mapping in plants, including the genetically effective cell number for wheat (for the first time) and the potential implementation of this technique in other plant species. This RH panel will be an invaluable resource for mapping gene based markers, developing a complete marker scaffold for the whole genome sequence assembly, fine mapping of markers and functional characterization of genes and gene networks present on the D-genome.

Published

2012

13. A tale of three next generation sequencing platforms: comparison of Ion Torrent, Pacific Biosciences and Illumina MiSeq sequencers

Author

Quail Michael A, Smith Miriam, Coupland Paul, Otto Thomas D, Harris Simon R, Connor Thomas R, Bertoni Anna, Swerdlow Harold P, and Gu Yong

Subjects

Next-generation sequencing, Ion torrent, Illumina, Pacific biosciences, MiSeq, PGM, SMRT, Bias, Genome coverage, GC-rich, AT-rich, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Next generation sequencing (NGS) technology has revolutionized genomic and genetic research. The pace of change in this area is rapid with three major new sequencing platforms having been released in 2011: Ion Torrent’s PGM, Pacific Biosciences’ RS and the Illumina MiSeq. Here we compare the results obtained with those platforms to the performance of the Illumina HiSeq, the current market leader. In order to compare these platforms, and get sufficient coverage depth to allow meaningful analysis, we have sequenced a set of 4 microbial genomes with mean GC content ranging from 19.3 to 67.7%. Together, these represent a comprehensive range of genome content. Here we report our analysis of that sequence data in terms of coverage distribution, bias, GC distribution, variant detection and accuracy. Results Sequence generated by Ion Torrent, MiSeq and Pacific Biosciences technologies displays near perfect coverage behaviour on GC-rich, neutral and moderately AT-rich genomes, but a profound bias was observed upon sequencing the extremely AT-rich genome of Plasmodium falciparum on the PGM, resulting in no coverage for approximately 30% of the genome. We analysed the ability to call variants from each platform and found that we could call slightly more variants from Ion Torrent data compared to MiSeq data, but at the expense of a higher false positive rate. Variant calling from Pacific Biosciences data was possible but higher coverage depth was required. Context specific errors were observed in both PGM and MiSeq data, but not in that from the Pacific Biosciences platform. Conclusions All three fast turnaround sequencers evaluated here were able to generate usable sequence. However there are key differences between the quality of that data and the applications it will support.

Published

2012

14. DNA repair and crossing over favor similar chromosome regions as discovered in radiation hybrid of Triticum

Author

Kumar Ajay, Bassi Filippo M, Paux Etienne, Al-Azzam Omar, de Jimenez Monika, Denton Anne M, Gu Yong Q, Huttner Eric, Kilian Andrzej, Kumar Sachin, Goyal Aakash, Iqbal Muhammad J, Tiwari Vijay K, Dogramaci Munevver, Balyan Harindra S, Dhaliwal Harcharan S, Gupta Pushpendra K, Randhawa Gursharn S, Feuillet Catherine, Pawlowski Wojciech P, and Kianian Shahryar F

Subjects

Non homologous end joining, Physical mapping, Gamma radiation, Deletion mutant, Chromatin, Wheat chromosome 3B, Radiation hybrid, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The uneven distribution of recombination across the length of chromosomes results in inaccurate estimates of genetic to physical distances. In wheat (Triticum aestivum L.) chromosome 3B, it has been estimated that 90% of the cross over events occur in distal sub-telomeric regions representing 40% of the chromosome. Radiation hybrid (RH) mapping which does not rely on recombination is a strategy to map genomes and has been widely employed in animal species and more recently in some plants. RH maps have been proposed to provide i) higher and ii) more uniform resolution than genetic maps, and iii) to be independent of the distribution patterns observed for meiotic recombination. An in vivo RH panel was generated for mapping chromosome 3B of wheat in an attempt to provide a complete scaffold for this ~1 Gb segment of the genome and compare the resolution to previous genetic maps. Results A high density RH map with 541 marker loci anchored to chromosome 3B spanning a total distance of 1871.9 cR was generated. Detailed comparisons with a genetic map of similar quality confirmed that i) the overall resolution of the RH map was 10.5 fold higher and ii) six fold more uniform. A significant interaction (r = 0.879 at p = 0.01) was observed between the DNA repair mechanism and the distribution of crossing-over events. This observation could be explained by accepting the possibility that the DNA repair mechanism in somatic cells is affected by the chromatin state in a way similar to the effect that chromatin state has on recombination frequencies in gametic cells. Conclusions The RH data presented here support for the first time in vivo the hypothesis of non-casual interaction between recombination hot-spots and DNA repair. Further, two major hypotheses are presented on how chromatin compactness could affect the DNA repair mechanism. Since the initial RH application 37 years ago, we were able to show for the first time that the iii) third hypothesis of RH mapping might not be entirely correct.

Published

2012

15. Optimizing illumina next-generation sequencing library preparation for extremely at-biased genomes

Author

Oyola Samuel O, Otto Thomas D, Gu Yong, Maslen Gareth, Manske Magnus, Campino Susana, Turner Daniel J, MacInnis Bronwyn, Kwiatkowski Dominic P, Swerdlow Harold P, and Quail Michael A

Subjects

Next-Generation Sequencing, Illumina, Library, Plasmodium falciparum, AT-rich, Malaria, Clinical isolate, PCR, Tetramethyammonium chloride, PCR-free, Isothermal, Linear, Exponential, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Massively parallel sequencing technology is revolutionizing approaches to genomic and genetic research. Since its advent, the scale and efficiency of Next-Generation Sequencing (NGS) has rapidly improved. In spite of this success, sequencing genomes or genomic regions with extremely biased base composition is still a great challenge to the currently available NGS platforms. The genomes of some important pathogenic organisms like Plasmodium falciparum (high AT content) and Mycobacterium tuberculosis (high GC content) display extremes of base composition. The standard library preparation procedures that employ PCR amplification have been shown to cause uneven read coverage particularly across AT and GC rich regions, leading to problems in genome assembly and variation analyses. Alternative library-preparation approaches that omit PCR amplification require large quantities of starting material and hence are not suitable for small amounts of DNA/RNA such as those from clinical isolates. We have developed and optimized library-preparation procedures suitable for low quantity starting material and tolerant to extremely high AT content sequences. Results We have used our optimized conditions in parallel with standard methods to prepare Illumina sequencing libraries from a non-clinical and a clinical isolate (containing ~53% host contamination). By analyzing and comparing the quality of sequence data generated, we show that our optimized conditions that involve a PCR additive (TMAC), produces amplified libraries with improved coverage of extremely AT-rich regions and reduced bias toward GC neutral templates. Conclusion We have developed a robust and optimized Next-Generation Sequencing library amplification method suitable for extremely AT-rich genomes. The new amplification conditions significantly reduce bias and retain the complexity of either extremes of base composition. This development will greatly benefit sequencing clinical samples that often require amplification due to low mass of DNA starting material.

Published

2012

16. Annotation-based genome-wide SNP discovery in the large and complex Aegilops tauschii genome using next-generation sequencing without a reference genome sequence

Author

Luo Ming-Cheng, Gu Yong Q, Deal Karin R, Huo Naxin, You Frank M, McGuire Patrick E, Dvorak Jan, and Anderson Olin D

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Many plants have large and complex genomes with an abundance of repeated sequences. Many plants are also polyploid. Both of these attributes typify the genome architecture in the tribe Triticeae, whose members include economically important wheat, rye and barley. Large genome sizes, an abundance of repeated sequences, and polyploidy present challenges to genome-wide SNP discovery using next-generation sequencing (NGS) of total genomic DNA by making alignment and clustering of short reads generated by the NGS platforms difficult, particularly in the absence of a reference genome sequence. Results An annotation-based, genome-wide SNP discovery pipeline is reported using NGS data for large and complex genomes without a reference genome sequence. Roche 454 shotgun reads with low genome coverage of one genotype are annotated in order to distinguish single-copy sequences and repeat junctions from repetitive sequences and sequences shared by paralogous genes. Multiple genome equivalents of shotgun reads of another genotype generated with SOLiD or Solexa are then mapped to the annotated Roche 454 reads to identify putative SNPs. A pipeline program package, AGSNP, was developed and used for genome-wide SNP discovery in Aegilops tauschii-the diploid source of the wheat D genome, and with a genome size of 4.02 Gb, of which 90% is repetitive sequences. Genomic DNA of Ae. tauschii accession AL8/78 was sequenced with the Roche 454 NGS platform. Genomic DNA and cDNA of Ae. tauschii accession AS75 was sequenced primarily with SOLiD, although some Solexa and Roche 454 genomic sequences were also generated. A total of 195,631 putative SNPs were discovered in gene sequences, 155,580 putative SNPs were discovered in uncharacterized single-copy regions, and another 145,907 putative SNPs were discovered in repeat junctions. These SNPs were dispersed across the entire Ae. tauschii genome. To assess the false positive SNP discovery rate, DNA containing putative SNPs was amplified by PCR from AL8/78 and AS75 and resequenced with the ABI 3730 xl. In a sample of 302 randomly selected putative SNPs, 84.0% in gene regions, 88.0% in repeat junctions, and 81.3% in uncharacterized regions were validated. Conclusion An annotation-based genome-wide SNP discovery pipeline for NGS platforms was developed. The pipeline is suitable for SNP discovery in genomic libraries of complex genomes and does not require a reference genome sequence. The pipeline is applicable to all current NGS platforms, provided that at least one such platform generates relatively long reads. The pipeline package, AGSNP, and the discovered 497,118 Ae. tauschii SNPs can be accessed at (http://avena.pw.usda.gov/wheatD/agsnp.shtml).

Published

2011

17. Nucleotide diversity maps reveal variation in diversity among wheat genomes and chromosomes

Author

McGuire Patrick E, Matthews David E, Ma Yaqin Q, Luo Ming-Cheng, Lazo Gerard R, Huo Naxin, Heo Hwayoung, Hadam Jakub, Gu Yong Q, Gill Bikram S, Dubcovsky Jorge, Deal Karin R, Crossman Curt C, Conley Emily J, Coleman-Derr Devin, Clegg Michael T, Blake Nancy, Anderson James A, Anderson Olin D, Akhunova Alina R, Akhunov Eduard D, Morrell Peter L, Qualset Calvin O, Renfro James, Tabanao Dindo, Talbert Luther E, Tian Chao, Toleno Donna M, Warburton Marilyn L, You Frank M, Zhang Wenjun, and Dvorak Jan

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background A genome-wide assessment of nucleotide diversity in a polyploid species must minimize the inclusion of homoeologous sequences into diversity estimates and reliably allocate individual haplotypes into their respective genomes. The same requirements complicate the development and deployment of single nucleotide polymorphism (SNP) markers in polyploid species. We report here a strategy that satisfies these requirements and deploy it in the sequencing of genes in cultivated hexaploid wheat (Triticum aestivum, genomes AABBDD) and wild tetraploid wheat (Triticum turgidum ssp. dicoccoides, genomes AABB) from the putative site of wheat domestication in Turkey. Data are used to assess the distribution of diversity among and within wheat genomes and to develop a panel of SNP markers for polyploid wheat. Results Nucleotide diversity was estimated in 2114 wheat genes and was similar between the A and B genomes and reduced in the D genome. Within a genome, diversity was diminished on some chromosomes. Low diversity was always accompanied by an excess of rare alleles. A total of 5,471 SNPs was discovered in 1791 wheat genes. Totals of 1,271, 1,218, and 2,203 SNPs were discovered in 488, 463, and 641 genes of wheat putative diploid ancestors, T. urartu, Aegilops speltoides, and Ae. tauschii, respectively. A public database containing genome-specific primers, SNPs, and other information was constructed. A total of 987 genes with nucleotide diversity estimated in one or more of the wheat genomes was placed on an Ae. tauschii genetic map, and the map was superimposed on wheat deletion-bin maps. The agreement between the maps was assessed. Conclusions In a young polyploid, exemplified by T. aestivum, ancestral species are the primary source of genetic diversity. Low effective recombination due to self-pollination and a genetic mechanism precluding homoeologous chromosome pairing during polyploid meiosis can lead to the loss of diversity from large chromosomal regions. The net effect of these factors in T. aestivum is large variation in diversity among genomes and chromosomes, which impacts the development of SNP markers and their practical utility. Accumulation of new mutations in older polyploid species, such as wild emmer, results in increased diversity and its more uniform distribution across the genome.

Published

2010

18. A BAC-based physical map of Brachypodium distachyon and its comparative analysis with rice and wheat

Author

Nelson William M, Lazo Gerard R, You Frank M, Vogel John P, Huo Naxin, Ma Yaqin, Gu Yong Q, Soderlund Carol, Dvorak Jan, Anderson Olin D, and Luo Ming-Cheng

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Brachypodium distachyon (Brachypodium) has been recognized as a new model species for comparative and functional genomics of cereal and bioenergy crops because it possesses many biological attributes desirable in a model, such as a small genome size, short stature, self-pollinating habit, and short generation cycle. To maximize the utility of Brachypodium as a model for basic and applied research it is necessary to develop genomic resources for it. A BAC-based physical map is one of them. A physical map will facilitate analysis of genome structure, comparative genomics, and assembly of the entire genome sequence. Results A total of 67,151 Brachypodium BAC clones were fingerprinted with the SNaPshot HICF fingerprinting method and a genome-wide physical map of the Brachypodium genome was constructed. The map consisted of 671 contigs and 2,161 clones remained as singletons. The contigs and singletons spanned 414 Mb. A total of 13,970 gene-related sequences were detected in the BAC end sequences (BES). These gene tags aligned 345 contigs with 336 Mb of rice genome sequence, showing that Brachypodium and rice genomes are generally highly colinear. Divergent regions were mainly in the rice centromeric regions. A dot-plot of Brachypodium contigs against the rice genome sequences revealed remnants of the whole-genome duplication caused by paleotetraploidy, which were previously found in rice and sorghum. Brachypodium contigs were anchored to the wheat deletion bin maps with the BES gene-tags, opening the door to Brachypodium-Triticeae comparative genomics. Conclusion The construction of the Brachypodium physical map, and its comparison with the rice genome sequence demonstrated the utility of the SNaPshot-HICF method in the construction of BAC-based physical maps. The map represents an important genomic resource for the completion of Brachypodium genome sequence and grass comparative genomics. A draft of the physical map and its comparisons with rice and wheat are available at http://phymap.ucdavis.edu/brachypodium/.

Published

2009

19. Morphological characteristics of fatal pediatric hand, foot and mouth disease: A clinicopathological study with related receptors of EV71.

Author

Gu, Yong-yao, Shi, Ke, Yao, Sha, Yang, Xia, Liu, Yu-hui, Tang, Lan, Dang, Yi-wu, Chen, Gang, Feng, Zhen-bo, and Pan, Hong-bo

Subjects

*HAND, foot & mouth disease, *PEDIATRIC pathology, *IMMUNOHISTOCHEMISTRY, *HISTOPATHOLOGY, *ENTEROVIRUSES, *P-selectin glycoprotein ligand-1, *SCAVENGER receptors (Biochemistry), *GENETICS

Abstract

Objective To investigate the pathological features of fatal pediatric hand foot and mouth disease (HFMD). Methods The histopathological features of HFMD were first summarized from literature, and then confirmed by in-house autopsies. Furthermore, immunohistochemistry was conducted to detect the distribution and expression level of two enterovirus 71 (EV71) receptors scavenger receptor class B, member 2 (SCARB2), and P-selectin glycoprotein ligand-1 (PSGL1) in the samples of autopsies. Results The main symptoms of HFMD included hand and foot rashes, as well as oral herpes. The fatal HFMD patients had typical histopathological change in the central nervous system, such as encephaledema and encephalitis. As for respiratory system, the fatal HFMD patients suffered acute pulmonary edema and congestion. SCARB2 positive signaling was distributed equally in bronchial and bronchiolar epithelial cells, alveolar epithelial cells and inflammatory cells of all HFMD patients, healthy children and adults without significant difference. PSGL-1 dispersed in bronchial and bronchiolar epithelial cells of healthy adults, but no PSGL-1 expression was detected in HFMD patients and healthy children. Conclusions Both of the central nervous and respiratory systems may be involved in the fatal HFMD patients. The EV71 receptor PSGL-1 might play essential parts in the pathogenesis of fatal HFMD, however, the hypothesis needs to be further investigated. [ABSTRACT FROM AUTHOR]

Published

2017

20. Association between the PARP1 Val762Ala Polymorphism and Cancer Risk: Evidence from 43 Studies.

Author

Hua, Rui-Xi, Li, He-Ping, Liang, Yan-Bing, Zhu, Jin-Hong, Zhang, Bing, Ye, Sheng, Dai, Qiang-Sheng, Xiong, Shi-Qiu, Gu, Yong, and Sun, Xiang-Zhou

Subjects

CANCER risk factors, GENETIC polymorphisms, DNA damage, CELL proliferation, CELL death, MESSENGER RNA, GENE expression

Abstract

Background: Poly (ADP-ribose) polymerase-1 (PARP-1) plays critical roles in the detection and repair of damaged DNA, as well as cell proliferation and death. Numerous studies have examined the associations between PARP1 Val762Ala (rs1136410 T>C) polymorphism and cancer susceptibility; nevertheless, the findings from different research groups remain controversial. Methods: We searched literatures from MEDLINE, EMBASE and CBM pertaining to such associations, and then calculated pooled odds ratio (OR) and 95% confidence interval (CI) by using random-effects model. The false-positive report probability (FPRP) analysis was used to confirm the validity of significant findings. Moreover, potential effects of rs1136410 variants on PARP1 mRNA expression were analyzed for three ethnicities by combining data from HapMap (genotype) and SNPexp (mRNA expression). Results: The final meta-analysis incorporated 43 studies, consisting of 17,351 cases and 22,401 controls. Overall, our results did not suggest significant associations between Ala variant (Ala/Ala or Ala/Val genotype) and cancer risk. However, further stratification analysis showed significantly increased risk for gastric cancer (Ala/Ala vs. Val/Val: OR = 1.56, 95% CI = 1.01–2.42, Ala/Val vs. Val/Val: OR = 1.34, 95% CI = 1.14–1.58, dominant model: OR = 1.41, 95% CI = 1.21–1.65 and Ala vs. Val: OR = 1.29, 95% CI = 1.07–1.55). On the contrary, decreased risk for brain tumor (Ala/Val vs. Val/Val: OR = 0.77, 95% CI = 0.68–0.87, dominant model: OR = 0.77, 95% CI = 0.68–0.87 and Ala vs. Val: OR = 0.82, 95% CI = 0.74–0.91). Additionally, we found that the Ala carriers had a significantly increased risk in all models for Asians. Our mRNA expression data provided further biological evidence to consolidate this finding. Conclusions: Despite some limitations, this meta-analysis found evidence for an association between the PAPR1 Val762Ala and cancer susceptibility within gastric cancer, brain tumor and Asian subgroups. [ABSTRACT FROM AUTHOR]

Published

2014

21. Is the Serum Vitamin D Level at the Time of Hospital-Acquired Acute Kidney Injury Diagnosis Associated with Prognosis?

Author

Lai, Lingyun, Qian, Jing, Yang, Yanjiao, Xie, Qionghong, You, Huaizhou, Zhou, Ying, Ma, Shuai, Hao, Chuanming, Gu, Yong, and Ding, Feng

Subjects

SERUM, VITAMIN D, VITAMINS in the blood, ACUTE kidney failure, KIDNEY injuries, PROGNOSIS, CRITICALLY ill, DIAGNOSIS

Abstract

Background: Low circulating vitamin D levels have been suggested to potentially contribute to acute complications in critically ill patients. However, in patients with acute kidney injury (AKI), whether vitamin D deficiency occurs and is a potential contributor to worse early outcomes at the time of AKI diagnosis remains unclear. Methodology/Principal Findings: Two hundred patients with AKI were enrolled in our study. Healthy subjects and critically ill patients without AKI served as controls. Serum vitamin D concentrations were measured in the three groups. The patients with AKI were followed up for 90 days and grouped according to median serum vitamin D concentrations. In addition, vitamin D receptor polymorphisms (BsmI and FokI) were measured in these patients; they were also followed up for 90 days and grouped according to vitamin D receptor gene mutations. Low serum 1,25-dihydroxyvitamin D levels (59.56±53.00 pmol/L) were detected in patients with AKI and decreased with increasing severity of AKI. There were no significant findings with respect to 25-hydroxyvitamin D. The 90-day survival curves of individuals with high vitamin D concentrations showed no significant differences compared with the curves of individuals with low concentrations. The survival curves of patients with BB/Bb or FF/Ff genotypes also showed no significant differences compared with patients with bb or ff genotypes. In Cox regression analysis, the vitamin D status in patients with AKI was not an independent prognostic factor as adjusted by age, sex, Sequential Organ Failure Assessment score, or vitamin D receptor polymorphisms. Conclusions/Significance: Patients with AKI manifested a marked decrease in the 1,25-dihydroxyvitamin D level at the time of AKI diagnosis, and the degree of 1,25-dihydroxyvitamin D deficiency increased with the severity of AKI. No association between the serum vitamin D level at the time of AKI diagnosis and 90-day all-cause mortality was found in patients with AKI. [ABSTRACT FROM AUTHOR]

Published

2013

22. Characterization of the Two Intra-Individual Sequence Variants in the 18S rRNA Gene in the Plant Parasitic Nematode, Rotylenchulus reniformis.

Author

Nyaku, Seloame T., Sripathi, Venkateswara R., Kantety, Ramesh V., Gu, Yong Q., Lawrence, Kathy, and Sharma, Govind C.

Subjects

NUCLEOTIDE sequence, RIBOSOMAL RNA, PLANT nematodes, ROTYLENCHULUS reniformis, GENETIC mutation, GENETIC regulation, MOLECULAR genetics, POPULATION biology

Abstract

The 18S rRNA gene is fundamental to cellular and organismal protein synthesis and because of its stable persistence through generations it is also used in phylogenetic analysis among taxa. Sequence variation in this gene within a single species is rare, but it has been observed in few metazoan organisms. More frequently it has mostly been reported in the non-transcribed spacer region. Here, we have identified two sequence variants within the near full coding region of 18S rRNA gene from a single reniform nematode (RN) Rotylenchulus reniformis labeled as reniform nematode variant 1 (RN_VAR1) and variant 2 (RN_VAR2). All sequences from three of the four isolates had both RN variants in their sequences; however, isolate 13B had only RN variant 2 sequence. Specific variable base sites (96 or 5.5%) were found within the 18S rRNA gene that can clearly distinguish the two 18S rDNA variants of RN, in 11 (25.0%) and 33 (75.0%) of the 44 RN clones, for RN_VAR1 and RN_VAR2, respectively. Neighbor-joining trees show that the RN_VAR1 is very similar to the previously existing R. reniformis sequence in GenBank, while the RN_VAR2 sequence is more divergent. This is the first report of the identification of two major variants of the 18S rRNA gene in the same single RN, and documents the specific base variation between the two variants, and hypothesizes on simultaneous co-existence of these two variants for this gene. [ABSTRACT FROM AUTHOR]

Published

2013

23. A New Class of Wheat Gliadin Genes and Proteins.

Author

Anderson, Olin D., Lingli Dong, Naxin Huo, and Gu, Yong Q.

Subjects

GLIADINS, GENOMES, GENETICS, HAPLOIDY, GENOMICS, CULTIVARS

Abstract

The utility of mining DNA sequence data to understand the structure and expression of cereal prolamin genes is demonstrated by the identification of a new class of wheat prolamins. This previously unrecognized wheat prolamin class, given the name δ-gliadins, is the most direct ortholog of barley γ3-hordeins. Phylogenetic analysis shows that the orthologous δ-gliadins and γ3-hordeins form a distinct prolamin branch that existed separate from the c-gliadins and chordeins in an ancestral Triticeae prior to the branching of wheat and barley. The expressed δ-gliadins are encoded by a single gene in each of the hexaploid wheat genomes. This single δ-gliadin/γ3-hordein ortholog may be a general feature of the Triticeae tribe since examination of ESTs from three barley cultivars also confirms a single γ3-hordein gene. Analysis of ESTs and cDNAs shows that the genes are expressed in at least five hexaploid wheat cultivars in addition to diploids Triticum monococcum and Aegilops tauschii. The latter two sequences also allow assignment of the δ-gliadin genes to the A and D genomes, respectively, with the third sequence type assumed to be from the B genome. Two wheat cultivars for which there are sufficient ESTs show different patterns of expression, i.e., with cv Chinese Spring expressing the genes from the A and B genomes, while cv Recital has ESTs from the A and D genomes. Genomic sequences of Chinese Spring show that the D genome gene is inactivated by tandem premature stop codons. A fourth δ-gliadin sequence occurs in the D genome of both Chinese Spring and Ae. tauschii, but no ESTs match this sequence and limited genomic sequences indicates a pseudogene containing frame shifts and premature stop codons. Sequencing of BACs covering a 3 Mb region from Ae. tauschii locates the δ-gliadin gene to the complex Gli-1 plus Glu-3 region on chromosome 1. [ABSTRACT FROM AUTHOR]

Published

2012

24. Nucleotide diversity maps reveal variation in diversity among wheat genomes and chromosomes.

Author

Akhunov, Eduard D., Akhunova, Alina R., Anderson, Olin D., Anderson, James A., Blake, Nancy, Clegg, Michael T., Coleman-Derr, Devin, Conley, Emily J., Crossman, Curt C., Deal, Karin R., Dubcovsky, Jorge, Gill, Bikram S., Gu, Yong Q., Hadam, Jakub, Hwayoung Heo, Huo, Naxin, Lazo, Gerard R., Ming-Cheng Luo, Ma, Yaqin Q., and Matthews, David E.

Subjects

CROSSING over (Genetics), CHROMOSOMES, NUCLEOTIDES, GENOMES, GENETICS, WHEAT

Abstract

Background: A genome-wide assessment of nucleotide diversity in a polyploid species must minimize the inclusion of homoeologous sequences into diversity estimates and reliably allocate individual haplotypes into their respective genomes. The same requirements complicate the development and deployment of single nucleotide polymorphism (SNP) markers in polyploid species. We report here a strategy that satisfies these requirements and deploy it in the sequencing of genes in cultivated hexaploid wheat (Triticum aestivum, genomes AABBDD) and wild tetraploid wheat (Triticum turgidum ssp. dicoccoides, genomes AABB) from the putative site of wheat domestication in Turkey. Data are used to assess the distribution of diversity among and within wheat genomes and to develop a panel of SNP markers for polyploid wheat. Results: Nucleotide diversity was estimated in 2114 wheat genes and was similar between the A and B genomes and reduced in the D genome. Within a genome, diversity was diminished on some chromosomes. Low diversity was always accompanied by an excess of rare alleles. A total of 5,471 SNPs was discovered in 1791 wheat genes. Totals of 1,271, 1,218, and 2,203 SNPs were discovered in 488, 463, and 641 genes of wheat putative diploid ancestors, T. urartu, Aegilops speltoides, and Ae. tauschii, respectively. A public database containing genome-specific primers, SNPs, and other information was constructed. A total of 987 genes with nucleotide diversity estimated in one or more of the wheat genomes was placed on an Ae. tauschii genetic map, and the map was superimposed on wheat deletion-bin maps. The agreement between the maps was assessed. Conclusions: In a young polyploid, exemplified by T. aestivum, ancestral species are the primary source of genetic diversity. Low effective recombination due to self-pollination and a genetic mechanism precluding homoeologous chromosome pairing during polyploid meiosis can lead to the loss of diversity from large chromosomal regions. The net effect of these factors in T. aestivum is large variation in diversity among genomes and chromosomes, which impacts the development of SNP markers and their practical utility. Accumulation of new mutations in older polyploid species, such as wild emmer, results in increased diversity and its more uniform distribution across the genome. [ABSTRACT FROM AUTHOR]

Published

2010

25. Disruption of AT-hook 1 domain in MeCP2 protein caused behavioral abnormality in mice.

Author

Xu, Miaojing, Song, Pingping, Huang, Wei, He, Rongni, He, Yong, Zhou, Xiao, Gu, Yong, Pan, Suyue, and Hu, Yafang

Subjects

*AUTISM spectrum disorders, *RETT syndrome, *PALINDROMIC DNA, *GENETIC mutation, *GENETIC transcription, *LABORATORY mice, *GENETICS

Abstract

MECP2 is the causative gene for autism spectrum disorders, including Rett syndrome, a regressive neurodevelopmental rare disease mainly occurring in girls. Except for the distinct methyl-CpG binding domain and the transcriptional repression domain in MeCP2, three AT-hook-like domains have recently been identified. Several mutations in AT-hook 1 domain have been reported in autism cases or Rett database. However, the role of AT-hook 1 domain is still unclear. In this study, we generated a mouse line carrying deletion of eight conserved amino acids in AT-hook 1 domain by clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 technology. Mecp2 ΔAT-hook1/y mutant male mice exhibited low locomotor activity, motor incoordination and cognitive deficit. In addition, these mutant mice exhibited increased anxiety. Moreover, pain insensitivity was noted in the mutant males. However, the social interactions were unaffected in AT-hook 1 mutant mice. Thinner CA1 region of the hippocampus was observed in the mutant mice. On the molecular basis, Western blot analysis showed increased expression of mutant MeCP2 protein in the cortex. Additionally, several genes expressed specifically in inhibitory neurons were markedly changed in the cerebrum. Taken together, these data demonstrate that disruption of AT-hook 1 domain in MeCP2 caused behavioral abnormality in mice, which suggests that AT-hook 1 is a critical region for the function of MeCP2 protein. [ABSTRACT FROM AUTHOR]

Published

2018

26. Characterization of the Two Intra-Individual Sequence Variants in the 18S rRNA Gene in the Plant Parasitic Nematode, Rotylenchulus reniformis.

Author

Nyaku, Seloame T., Sripathi, Venkateswara R., Kantety, Ramesh V., Gu, Yong Q., Lawrence, Kathy, and Sharma, Govind C.

Subjects

*NUCLEOTIDE sequence, *RIBOSOMAL RNA, *PLANT nematodes, *ROTYLENCHULUS reniformis, *GENETIC mutation, *GENETIC regulation, *MOLECULAR genetics, *POPULATION biology

Abstract

The 18S rRNA gene is fundamental to cellular and organismal protein synthesis and because of its stable persistence through generations it is also used in phylogenetic analysis among taxa. Sequence variation in this gene within a single species is rare, but it has been observed in few metazoan organisms. More frequently it has mostly been reported in the non-transcribed spacer region. Here, we have identified two sequence variants within the near full coding region of 18S rRNA gene from a single reniform nematode (RN) Rotylenchulus reniformis labeled as reniform nematode variant 1 (RN_VAR1) and variant 2 (RN_VAR2). All sequences from three of the four isolates had both RN variants in their sequences; however, isolate 13B had only RN variant 2 sequence. Specific variable base sites (96 or 5.5%) were found within the 18S rRNA gene that can clearly distinguish the two 18S rDNA variants of RN, in 11 (25.0%) and 33 (75.0%) of the 44 RN clones, for RN_VAR1 and RN_VAR2, respectively. Neighbor-joining trees show that the RN_VAR1 is very similar to the previously existing R. reniformis sequence in GenBank, while the RN_VAR2 sequence is more divergent. This is the first report of the identification of two major variants of the 18S rRNA gene in the same single RN, and documents the specific base variation between the two variants, and hypothesizes on simultaneous co-existence of these two variants for this gene. [ABSTRACT FROM AUTHOR]

Published

2013