ABSTRACT
Despite the availability of whole genome assemblies, the identification and utilization of gene-based marker systems has been limited in pomegranate. In the present study, we performed a genome-wide survey of intron length (IL) markers in the 36,524 annotated genes of the Tunisia genome. We identified and designed a total of 8,812 potential intron polymorphism (PIP) markers specific to 3,445 (13.40%) gene models that span 8 Tunisia chromosomes. The ePCR validation of all these PIP markers on the Tunisia genome revealed single-locus amplification for 1,233 (14%) markers corresponding to 958 (27.80%) genes. The markers yielding single amplicons were then mapped onto Tunisia chromosomes to develop a saturated linkage map. The functional categorization of 958 genes revealed them to be a part of the nucleus and the cytoplasm having protein binding and catalytic activity, and these genes are mainly involved in the metabolic process, including photosynthesis. Further, through ePCR, 1,233 PIP markers were assayed on multiple genomes, which resulted in the identification of 886 polymorphic markers with an average PIC value of 0.62. In silico comparative mapping based on physically mapped PIP markers indicates a higher synteny of Tunisia with the Dabenzi and Taishanhong genomes (>98%) in comparison with the AG2017 genome (95%). We then performed experimental validation of a subset of 100 PIP primers on eight pomegranate genotypes and identified 76 polymorphic markers, with 15 having PIC values ≥0.50. We demonstrated the potential utility of the developed markers by analyzing the genetic diversity of 31 pomegranate genotypes using 24 PIP markers. This study reports for the first time large-scale development of gene-based and chromosome-specific PIP markers, which would serve as a rich marker resource for genetic variation studies, functional gene discovery, and genomics-assisted breeding of pomegranate.
ABSTRACT
【Objective】 To study the correlation between type ⅡCD36 deficiency and the polymorphism of intron sequence. 【Methods】 A total of 516 random healthy platelet donors from Liaoning Blood Center were involved: 241 of them were tested for CD36 antigen and CD36 gene sequence; the remaining 275 cases were sequenced only. CD36 antigen was detected by flow cytometry, and gene sequence was analyzed by PCRamplification and sequencing. 【Results】 Among the 241 samples, 1 case of type Ⅰ deficiency and 4 cases of type Ⅱ deficiency were detected, with frequencies of 0.41% and 1.66%, respectively. There was no nucleotide change in the coding region of 3 cases of typeⅡdeficiency. All individuals with type Ⅱ deficiency shared a common polymorphism in the intron 3, that is, carried (TG) 11 and 12 linked variants, and both were located in the same allele. The gene frequency of (TG)11 in the 516 random population was only 11.72%, which was much lower than 30.43% of (TG)13. The gene frequency of 12 linked variants in the random population was 8.81%. Almost all 12 linked variants occurred simultaneously with (TG)11, but only about 72.7% of (TG)11 were tandem with 12 linked variants. Flow cytometry showed that the expression of CD36 antigen on platelet in samples carrying only (TG)11 was comparable to that of normal samples, while the vast majority of samples carrying both (TG)11 and 12 linked variants had significantly lower CD36 antigen levels. 【Conclusion】 The (TG)11 in the intron 3 region is not platelet-specific silent allele, but there are some indirect correlations. There may be multiple platelet-specific silent allele.
ABSTRACT
BACKGROUND: Haynaldia villosa (L.) Schur (syn. Dasypyrum villosum L. Candargy, 2n = 14, genome VV) is the tertiary gene pool of wheat, and thus a potential resource of genes for wheat improvement. Among other, wheat yellow mosaic (WYM) resistance gene Wss1 and a take-all resistance gene were identified on the short arm of chromosome 4 V (4VS) of H. villosa. We had obtained introgressions on 4VS chromosome arm, with the objective of utilizing the target genes. However, monitoring these introgressions has been a daunting task because of inadequate knowledge as to H.villosa genome, as reflected by the lack of specific markers. RESULTS: This study aims to develop 4VS-specific markers by combination of chromosome sorting and next-generation sequencing. The short arm of chromosome 4VS of H.villosa was flow-sorted using a FACSVantage SE flow cytometer and sorter, and then sequenced by Illumina sequencing. The sequence of H. villosa 4VS was assembled by the software Hecate, and then was compared with the sequence assemblies of wheat chromosome arms 4AL, 4BS and 4DS and Ae. tauschii 4DS, with the objectives of identifying exon-exon junctions and localizing introns on chromosome 4VS of H. villosa. The intron length polymorphisms suitable for designing H. villosa primers were evaluated with criteria. Consequently, we designed a total of 359 intron targeting (IT) markers, among which 232 (64.62%) markers were specific for tracing the 4VS chromatin in the wheat background. CONCLUSION: The combination of chromosome sorting and next-generation sequencing to develop specific IT markers for 4VS of H. villosa has high success rate and specificity, thus being applicable for the development of chromosome-specific markers for alien chromatin in wheat breeding.
Subject(s)
Breeding/methods , Chromosomes, Plant/genetics , Genetic Markers/genetics , High-Throughput Nucleotide Sequencing , Introns/genetics , Poaceae/genetics , Triticum/geneticsABSTRACT
BACKGROUND: Salvia miltiorrhiza (Danshen) is one of the most widely used medicinal herbs in traditional Chinese medicine. Locality-level and cultivar identification is of great importance not only for protecting highest therapeutic effectiveness of Daodi Danshen, but also for the genetic conservation and utilization of existing S. miltiorrhiza populations. RESULTS: Intron polymorphisms including SNPs (single nucleotide polymorphisms) and indels were exploited in major latex-like protein (MLP) gene. Based on these markers, genetic relationships among S. miltiorrhiza cultivar and populations in different locations were evaluated by constructing a dendrogram. Moreover, S. miltiorrhiza specimens from Laiwu region were geographically distinguishable by the developed SNP marker. A 204 bp-indel marker was exploited for the first space breeding cultivar Luyuan Danshen-1 (LD-1), and an effective real-time PCR assay was successfully developed for fast screening of LD-1 among local landraces. CONCLUSIONS: MLP intron is a valuable DNA barcode for intra-specific study of S. miltiorrhiza populations, and the developed markers can serve as a useful tool for molecular identification of LD-1 cultivar and geographically distinct populations of S. miltiorrhiza.
