Conversion of barley SNPs into PCR-based markers using dCAPS method

Molecular genetic research relies heavily on the ability to detect polymorphisms in DNA. Single nucleotide polymorphisms (SNPs) are the most frequent form of DNA variation in the genome. In combination with a PCR assay, the corresponding SNP can be analyzed as a derived cleaved amplified polymorphic sequence (dCAPS) marker. The dCAPS method exploits the well-known specificity of a restriction endonuclease for its recognition site and can be used to virtually detect any SNP. Here, we describe the use of the dCAPS method for detecting single-nucleotide changes by means of a barley EST, CK569932, PCR-based marker.     

基于珙桐SNP位点的dCAPS标记开发

本研究收集了珙桐、喜树等19份植物材料,运用分子生物学和生物信息学手段比对分析了rpoB,rpoC,matK等8个基因碱基序列上的单核苷酸多态性(SNP)位点,在atpF-atpH基因上找到了合适的SNP位点并设计了dCAPS引物,经PCR扩增和酶切验证后,将SNP转化为衍生型酶切扩增多态性序列(dCAPS)标记,可促进SNP标记在珙桐的遗传图谱构建、基因定位、种质资源鉴定、遗传多样性研究等领域的应用。     

Development of SNP-based CAPS and dCAPS markers in eight different genes involved in starch biosynthesis in rice

Single nucleotide polymorphisms (SNPs), which are inexhaustible, highly stable, and simply detectable sequence polymorphisms, can lead to phenotypic variations by affecting protein composition changes. Here, we report development of 25 new cleaved amplified polymorphic sequence or derived cleaved amplified polymorphic sequence markers that have discrete band sizes in relation to the SNP genotypes in eight putative gene regions. The average frequency of DNA polymorphisms was 1 per 175 bp (SNPs, 1 per 217 bp; In/dels, 1 per 906 bp). In primary statistical analysis of each marker on 55 diverse rice accessions, including different ecotypes, the mean value of the major allele frequency was 0.658 (0.509–0.927). The average polymorphism information content was 0.326 (0.126–0.375). The mean value of the inbreeding coefficient (f) was 0.950 and was positive (heterozygote deficiency) at all loci, corresponding to the inbreeding system in rice. In cluster analysis, all rice accessions clustered mainly into three groups according to the ecotypes. The association analysis showed that the SNP of Granule-bound starch synthase I and ADP-glucose pyrophosphorylase small subunit (ADPase-S) genes were highly associated with apparent amylose content variation than the others. These new SNP markers may be useful in genotyping rice germplasm, in marker-assisted selection for improving starch quality and content, and in linkage as well as association studies. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

dCAPS, a simple technique for the genetic analysis of single nucleotide polymorphisms: experimental applications in Arabidopsis thaliana genetics

PCR-based detection of single nucleotide polymorphisms is a powerful tool for the plant geneticist. Cleaved amplified polymorphic sequence analysis is the most widely used approach for the detection of single nucleotide polymorphisms. However, this technique is limited to mutations which create or disrupt a restriction enzyme recognition site. This paper presents a modification of this technique where mismatches in a PCR primer are used to create a polymorphism based on the target mutation. This technique is useful for following known mutations in segregating populations and genetic mapping of isolated DNAs used for positional based cloning of new genes. In addition, a computer program has been developed that facilitates the design of these PCR primers.     

Chloroplast subspecies-specific SNP detection and its maternal inheritance in Brassica oleracea L. by using a dCAPS marker

Chloroplast simple sequence repeats amplicons in 5 subspecies of Brassica oleracea were sequenced, and one chloroplast SNP was detected in amplicon ACP43. Through the introduction of an RsaI recognition site by adding one mismatch in the forward primer, combined with the increased primer length and raised annealing temperature, the dCAPS (derived cleaved amplified polymorphic sequences) marker ACP43-93 RsaI was successfully developed. By using the dCAPS marker, the subspecies-specific SNP was assayed in 206 materials representing the wide distribution of B. oleracea. This is the first report of chloroplast DNA (cpDNA) variation in cultivated subspecies of B. oleracea, which showed that chloroplast diversity existed at the intersubspecies level. Unlike other subspecies, most of the broccoli and all of the cauliflower materials sharing the same haplotype showed closer relationships in cpDNA level. Furthermore, the dCAPS haplotype of the offspring from 7 male sterile backcross populations was the same as the female parents, indicating maternal inheritance.     

Detection of single nucleotide polymorphism (SNP) controlling the waxy character in wheat by using a derived cleaved amplified polymorphic sequence (dCAPS) marker

We investigated a single nucleotide polymorphism (SNP) in the Wx-D1 gene, which was found in a mutant waxy wheat, and which expressed the Wx-D1 protein (granule-bound starch synthase I) as shown by immunoblot analysis. We also assayed starch synthase activity of granule-bound proteins. Using 22 doubled-haploid (DH) lines and 172 F(5) lines derived from the wild type x the mutant, we detected SNP via a PCR-based (dCAPS) marker. Amplified PCR products from Wx-D1 gene-specific primers, followed by mismatched primers designed for dCAPS analysis, were digested with the appropriate restriction enzyme. The two alleles, and the heterozygote genotype were easily and rapidly discriminated by gel-electrophoresis resolution to reveal SNP. All progeny lines that have the SNP of the mutant allele were waxy. Integrating the results of dCAPS analysis, immunoblot analysis and assays of starch synthase activity of granule-bound proteins indicates that the SNP in the Wx-D1 gene was responsible for its waxy character. This dCAPS marker is therefore useful as a marker to introduce the mutant allele into elite breeding lines.     

Genetic analysis of <Emphasis Type="Italic">Vrn-B1</Emphasis> for vernalization requirement by using linked dCAPS markers in bread wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.)

To identify a molecular marker closely linked to Vrn-B1, the Vrn-1 ortholog on chromosome 5B, sequence polymorphism at four orthologous RFLP loci closely linked to the Vrn-1 gene family was analyzed by using near-isogenic lines of ”Triple Dirk.” At Xwg644, a RFLP locus, three types of nucleotide sequence differing by the number of (TG) repeats, two or three times, and base changes were detected. A (TG)₃-type sequence proved to be specific to chromosome 5B by nulli-tetrasomic analysis, and substitution of single nucleotide (C/T) was detected between TD(B) carrying the former Vrn2 allele and TD(C) carrying the vrn2 allele. A mismatch primer was designed for dCAPS analysis of this single nucleotide polymorphism (SNP). Polymorphism was successfully detected between two NILs, through nested PCR by using a (TG)₃-specific primer (1st) and a dCAPS primer (2nd) followed by a NsiI digest. The analysis of a BF₂ population [(TD(B)//TD(C)] revealed the close linkage (1.7 cM) between WG644–5B and Vrn2. It was therefore concluded that the former Vrn2 locus is located on chromosome 5B and equivalent to Vrn-B1. Received: 3 May 2001 / Accepted: 19 July 2001     

Development of CAPS and dCAPS markers for <Emphasis Type="Italic">CYP82E4</Emphasis>, <Emphasis Type="Italic">CYP82E5v2</Emphasis> and <Emphasis Type="Italic">CYP82E10</Emphasis> gene mutants reducing nicotine to nornicotine conversion in tobacco

Nornicotine accumulation in tobacco is of concern because nornicotine is a precursor of N-nitrosonornicotine (NNN), a tobacco constituent recognized as a carcinogen by the health community. Nornicotine is derived from nicotine through a demethylation process catalyzed by nicotine demethylase enzymes. Three genes (CYP82E4, CYP82E5v2, and CYP82E10) have currently been identified that encode for these enzymes. Ethyl methane sulfonate has been used to introduce mutations into each of these genes to prevent production of functional gene products. These mutants represent a valuable tool for reducing nornicotine and NNN levels in cured tobacco leaves and their derived products. Methods are currently needed to rapidly and efficiently develop new cultivars possessing these mutant alleles. The objective of this study was to develop efficient, user-friendly DNA markers to identify these mutations based on single nucleotide polymorphisms (SNPs). Four dCAPS (derived cleaved amplified polymorphic sequence) markers were designed for a truncation mutation in CYP82E4, and a single marker was developed for a similar mutation in CYP82E5v2. Two CAPS (cleaved amplified polymorphic sequence) markers were designed for a missense mutation in CYP82E10. Because of the co-dominant nature of the CAPS and dCAPS markers, heterozygous and homozygous plants can be easily differentiated. Genotypes determined by the CAPS and dCAPS marker methods were validated by DNA sequencing and phenotypic analysis of plants carrying various mutant combinations. These markers can be used in marker-assisted selection programs to quickly introgress the desired mutations into commercial varieties in order to reduce nornicotine and NNN levels in tobacco leaves.