5.9
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5.9
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2009 Vol. 36, No. 12

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Research article
Identification, bioinformatic analysis and expression profiling of candidate mRNA-like non-coding RNAs in Sus scrofa
Bang Xiao, Xingju Zhang, Yong Li, Zhonglin Tang, Shulin Yang, Yulian Mu, Wentao Cui, Hong Ao, Kui Li
2009, 36(12): 695-702. doi: 10.1016/S1673-8527(08)60162-9
Abstract (79) HTML PDF (0)
Abstract:
Messenger RNA-like non-coding RNAs (mlncRNAs) are a newly identified group of non-coding RNAs (ncRNAs) that may be involved in a number of critical cellular events. In this study, 93 candidate porcine mlncRNAs were obtained by computational prediction and screening, among which 72 were mapped to the porcine genome. Further analysis of 8 representative candidates revealed that these mlncRNA candidates are not highly conserved among species. Remarkably, one of the candidates, sTF35495, was found to be precursor of a putative porcine microRNA. By RACE PCR, we determined that the full length of sTF35495 was 3 kb. The protein-coding potential of this RNA was tested in silico with no significant finding. Semi-quantitative RT-PCR analysis of the subgroup of 8 candidates revealed two distinct expression profiles and two molecules were further validated by real-time PCR. The predicted pre-microRNA sequence in this study provides a potentially interesting insight into the in vivo function of porcine mlncRNAs and our findings suggest that they play key biological roles in Sus scrofa.
Constructing an initial map of transmission distortion based on high density HapMap SNPs across the human autosomes
Libin Deng, Dake Zhang, Elliott Richards, Xiaoli Tang, Jin Fang, Fei Long, Yan Wang
2009, 36(12): 703-709. doi: 10.1016/S1673-8527(08)60163-0
Abstract (88) HTML PDF (0)
Abstract:
Transmission distortion (TD) is a significant departure from Mendelian predictions of genes or chromosomes to offspring. While many biological processes have been implicated, there is still much to be understood about TD in humans. Here we present our findings from a genome-wide scan for evidence of TD using haplotype data of 60 trio families from the International HapMap Project. Fisher's exact test was applied to assess the extent of TD in 629,958 SNPs across the autosomes. Based on the empirical distribution of and further permutation tests, we identified 1,205 outlier loci and 224 candidate genes with TD. Using the PANTHER gene ontology database, we found 19 categories of biological processes with an enrichment of candidate genes. In particular, the “protein phosphorylation” category contained the largest number of candidates in both HapMap samples. Further analysis uncovered an intriguing non-synonymous change in PPP1R12B, a gene related to protein phosphorylation, which appears to influence the allele transmission from male parents in the YRI (Yoruba from Ibadan, Nigeria) population. Our findings also indicate an ethnicity-related property of TD signatures in HapMap samples and provide new clues for our understanding of TD in humans.
Expression and responses to dehydration and salinity stresses of V-PPase gene members in wheat
Yuezhi Wang, Haibin Xu, Guangxiang Zhang, Huilan Zhu, Lixia Zhang, Zhengzhi Zhang, Caiqin Zhang, Zhengqiang Ma
2009, 36(12): 711-720. doi: 10.1016/S1673-8527(08)60164-2
Abstract (73) HTML PDF (0)
Abstract:
Vacuolar H+-translocating pyrophosphatase (V-PPase) is a key enzyme related to plant growth as well as abiotic stress tolerance. In this work, wheat V-PPase genesTaVP1, TaVP2 and TaVP3 were identified. TaVP1 and TaVP2 are more similar to each other than to TaVP3. Their deduced polypeptide sequences preserve the topological structure and essential residues of V-PPases. Phylogenetic studies suggested that monocot plants, at least monocot grasses, have three VP paralogs. TaVP3 transcripts were only detected in developing seeds, and no TaVP2 transcripts were found in germinating seeds. TaVP2 was mainly expressed in shoot tissues and down-regulated in leaves under dehydration. Its expression was up-regulated in roots under high salinity. TaVP1 was relatively more ubiquitously and evenly expressed than TaVP2. Its expression level in roots was highest among the tissues examined, and was inducible by salinity stress. These results indicated that the V-PPase gene paralogs in wheat are differentially regulated spatially and in response to dehydration and salinity stresses.
Mapping QTLs for seed yield and drought susceptibility index in soybean (Glycine max L.) across different environments
Weijun Du, Min Wang, Sanxiong Fu, Deyue Yu
2009, 36(12): 721-731. doi: 10.1016/S1673-8527(08)60165-4
Abstract (100) HTML PDF (1)
Abstract:
Drought stress has long been a major constraint in maintaining yield stability of soybean (Glycine max (L.) Merr.) in rainfed ecosystems. The identification of consistent quantitative trait loci (QTL) involving seed yield per plant (YP) and drought susceptibility index (DSI) in a population across different environments would therefore be important in molecular marker-assisted breeding of soybean cultivars suitable for rainfed regions. The YP of a recombinant line population of 184 F2:7:11 lines from a cross of Kefeng1 and Nannong1138-2 was studied under water-stressed (WS) and well-watered (WW) conditions in field (F) and greenhouse (G) trials, and DSI for yield was calculated in two trials. Nineteen QTLs associated with YP-WS and YP-WW, and 10 QTLs associated with DSI, were identified. Comparison of these QTL locations with previous findings showed that the majority of these regions control one or more traits related to yield and other agronomic traits. One QTL on molecular linkage group (MLG) K for YP-F, and two QTLs on MLG C2 for YP-G, remained constant across different water regimes. The regions on MLG C2 for YP-WW-F and MLG H for YP-WS-F had a pleiotropic effect on DSI-F, and MLG A1 for YP-WS-G had a pleiotropic effect on DSI-G. The identification of consistent QTLs for YP and DSI across different environments will significantly improve the efficiency of selecting for drought tolerance in soybean.
Bivariate association analysis for quantitative traits using generalized estimation equation
Fang Yang, Zihui Tang, Hongwen Deng
2009, 36(12): 733-743. doi: 10.1016/S1673-8527(08)60166-6
Abstract (74) HTML PDF (1)
Abstract:
Quantitative traits often underlie risk for complex diseases. Many studies collect multiple correlated quantitative phenotypes and perform univariate analyses on each of them respectively. However, this strategy may not be powerful and has limitations to detect pleiotropic genes that may underlie correlated quantitative traits. In addition, testing multiple traits individually will exacerbate perplexing problem of multiple testing. In this study, generalized estimating equation 2 (GEE2) is applied to association mapping of two correlated quantitative traits. We suppose that a quantitative trait locus is located in a chromosome region that exerts pleiotropic effects on multiple quantitative traits. In that region, multiple SNPs are genotyped. Genotypes of these SNPs and the two quantitative traits affected by a causal SNP were simulated under various parameter values: residual correlation coefficient between two traits, causal SNP heritability, minor allele frequency of the causal SNP, extent of linkage disequilibrium with the causal SNP, and the test sample size. By power analytical analyses, it is showed that the bivariate method is generally more powerful than the univariate method. This method is robust and yields false-positive rates close to the pre-set nominal significance level. Our real data analyses attested to the usefulness of the method.
Erratum
Erratum to “Analysis of collinear regions of Oryza AA and CC genomes” [Journal of Genetics and Genomics (2009) 36, 667–677]
Qi Feng, Tao Huang, Qiang Zhao, Jingjie Zhu, Zhixin Lin, Bin Han
2009, 36(12) doi: 10.1016/S1673-8527(08)60167-8
Abstract (70) HTML PDF (0)
Abstract: