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31.
Fu BY Xiong JH Zhu LH Zhao XQ Xu HX Gao YM Li YS Xu JL Li ZK 《Molecular genetics and genomics : MGG》2007,278(6):599-609
Drought tolerance (DT) in rice is known to be controlled by many quantitative trait loci (QTLs) and involved differential
expression of large numbers of genes, but linking QTLs with their underlying genes remains the most challenging issue in plant
molecular biology. To shed some light on this issue, differential gene expression in response to PEG simulated drought in
3 unique genetic materials (a lowland rice, IR64 and its derived line, PD86 which has 11 introgressed DT QTLs, and a upland
rice IRAT109) was investigated using a PCR-based subtractive hybridization strategy. More than 300 unique subtracted cDNA
sequences, covering genes of diverse cellular activities and functions, were identified and confirmed by semi-quantitative
and quantitative RT-PCR. Detailed bioinformatics analyses of the data revealed two interesting results. First, the levels
and mechanisms of DT of the three rice lines were associated with the number and types of differentially expressed genes,
suggesting different DT mechanisms in rice are controlled by different sets of genes and different metabolic pathways, and
most differentially expressed genes under drought were able to contribute to DT. Second, there appeared a high correspondence
in genomic location between DT QTLs and clusters of differentially expressed genes in rice, suggesting some DT QTLs may represent
clusters of co-regulated and functionally related genes. Thus, differential gene expression analyses using genetically characterized
materials can provide additional insights into the molecular basis of QTLs and convergent evidence to shortlist the candidate
genes for target QTLs.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
Bin-Ying Fu and Jian-Hua Xiong are contributed to this work equally. 相似文献
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33.
《Systematic and applied microbiology》2019,42(1):67-76
Candidate bacterial phylum BRC1 has been identified in a broad range of mostly organic-rich oxic and anoxic environments through molecular analysis of microbial communities. None of the members of BRC1 have been cultivated and only a few draft genome sequences have been obtained from metagenomes or as a result of single-cell sequencing. We have reconstructed complete genome of BRC1 bacterium, BY40, from metagenome of the microbial community of a deep subsurface thermal aquifer in the Tomsk Region of the Western Siberia, Russia, and used it for metabolic reconstruction and comparison with existing genomic data. Analysis of 3.3 Mb genome of BY40 bacterium revealed numerous glycoside hydrolases that could enable utilization of carbohydrates, including enzymes of chitin-degradation pathway. The bacterium lacks flagellar machinery but the twitching motility is encoded. The reconstructed central metabolism revealed pathways enabling the fermentation of organic substrates, as well as their complete oxidation through aerobic and anaerobic respiration. Phylogenetic analysis using BY40 genome supported the phylum level classification of BRC1 lineage. Based on phylogenetic and genomic analyses, the novel bacterium is proposed to be classified as Candidatus Sumerlaea chitinivorans, within a candidate phylum Sumerlaeota. 相似文献
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36.
Genes controlling seed dormancy and pre-harvest sprouting in a rice-wheat-barley comparison 总被引:11,自引:0,他引:11
Li C Ni P Francki M Hunter A Zhang Y Schibeci D Li H Tarr A Wang J Cakir M Yu J Bellgard M Lance R Appels R 《Functional & integrative genomics》2004,4(2):84-93
Pre-harvest sprouting results in significant economic loss for the grain industry around the world. Lack of adequate seed dormancy is the major reason for pre-harvest sprouting in the field under wet weather conditions. Although this trait is governed by multiple genes it is also highly heritable. A major QTL controlling both pre-harvest sprouting and seed dormancy has been identified on the long arm of barley chromosome 5H, and it explains over 70% of the phenotypic variation. Comparative genomics approaches among barley, wheat and rice were used to identify candidate gene(s) controlling seed dormancy and hence one aspect of pre-harvest sprouting. The barley seed dormancy/pre-harvest sprouting QTL was located in a region that showed good synteny with the terminal end of the long arm of rice chromosome 3. The rice DNA sequences were annotated and a gene encoding GA20-oxidase was identified as a candidate gene controlling the seed dormancy/pre-harvest sprouting QTL on 5HL. This chromosomal region also shared synteny with the telomere region of wheat chromosome 4AL, but was located outside of the QTL reported for seed dormancy in wheat. The wheat chromosome 4AL QTL region for seed dormancy was syntenic to both rice chromosome 3 and 11. In both cases, corresponding QTLs for seed dormancy have been mapped in rice.C. Li and P. Ni contributed equally to this work 相似文献
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38.
Empirical supremum rejection sampling 总被引:1,自引:0,他引:1
39.
Mapping QTLs and candidate genes for rice root traits under different water-supply conditions and comparative analysis across three populations 总被引:12,自引:0,他引:12
Zheng BS Yang L Zhang WP Mao CZ Wu YR Yi KK Liu FY Wu P 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,107(8):1505-1515
To investigate the genetic factors underlying constitutive and adaptive morphological traits of roots under different water-supply conditions, a recombinant inbred line (RIL) population derived from a cross between the lowland rice variety IR1552 and the upland rice variety Azucena with 249 molecular markers, was used in cylindrical-pot experiments. Eighteen QTLs were detected for seminal root length (SRL), adventitious root number (ARN), and lateral root length (LRL) and lateral root number (LRN) on the seminal root at a soil depth of from 3 to 6 cm under flooding and upland conditions. One identical QTL was detected under both flooding and upland conditions. The relative parameters under the two water-supply conditions were also used for QTL analysis. Five QTLs for upland induced variations in the traits were detected with the positive alleles from Azucena. A comparative analysis was performed for the QTLs detected in this study and those reported from two other populations with Azucena as a parent. Several identical QTLs for root elongation were found across the three populations with positive alleles from Azucena. Candidate genes were screened from ESTs and cDNA-AFLP clones for comparative mapping with the detected QTLs. Two genes for cell expansion, OsEXP2 and endo-1,4--D-glucanase EGase, and four cDNA-AFLP clones from root tissues of Azucena, were mapped on the intervals carrying the QTLs for SRL and LRL under upland conditions, respectively.Communicated by H.C. Becker 相似文献
40.
Chromosomal localization and sequence analysis of the 5S rRNA gene were carried out in five Capsicum species. Fluorescence in situ hybridization revealed that chromosomal location of the 5S rRNA gene was conserved in a single locus at a chromosome which was assigned to chromosome 1 by the synteny relationship with tomato. In sequence analysis, the repeating units of the 5S rRNA genes in the Capsicum species were variable in size from 278 bp to 300 bp. In sequence comparison of our results to the results with other Solanaceae plants as published by others, the coding region was highly conserved, but the spacer regions varied in size and sequence. T stretch regions, just after the end of the coding sequences, were more prominant in the Capsicum species than in two other plants. High G-C rich regions, which might have similar functions as that of the GC islands in the genes transcribed by RNA PolII, were observed after the T stretch region. Although we could not observe the TATA like sequences, an AT rich segment at -27 to -18 was detected in the 5S rRNA genes of the Capsicum species. Species relationship among the Capsicum species was also studied by the sequence comparison of the 5S rRNA genes. While C. chinense, C. frutescens, and C. annuum formed one lineage, C. baccatum was revealed to be an intermediate species between the former three species and C. pubescens. 相似文献