Molecular characterization and comparative analysis of two waxy alleles in barley

Two alleles of the barley waxy locus were characterized from non-waxy cultivar Bowman and waxy cultivar CDC Candle, respectively. Their nucleotide and protein sequences were compared with other known waxy genes. The comparison results indicated that there were 100 polymorphic sites, among which 69 were in the non-coding region and 31 were in the coding region. Out of 100 polymorphic sites, 45 were trans-version, 35 were transition and 20 were indels. A 397 bp deletion and a 193 bp insertion in the promoter region and a 15 bp insertion in the coding region were found in CDC Candle, but not in Bowman. A deletion (11 bp) was detected in Bowman, which exhibited no effects on normal waxy expression. In summary, the 397 bp deletion was supposed to account for the reduction of GBSS I, resulting in the low amylose in CDC Candle; whereas other polymorphic sites might be not correlated with amylose synthesis.     

The genomic landscape of short insertion and deletion polymorphisms in the chicken (Gallus gallus) Genome: a high frequency of deletions in tandem duplicates

It is increasingly recognized that insertions and deletions (indels) are an important source of genetic as well as phenotypic divergence and diversity. We analyzed length polymorphisms identified through partial (0.25x) shotgun sequencing of three breeds of domestic chicken made by the International Chicken Polymorphism Map Consortium. A data set of 140,484 short indel polymorphisms in unique DNA was identified after filtering for microsatellite structures. There was a significant excess of tandem duplicates at indel sites, with deletions of a duplicate motif outnumbering the generation of duplicates through insertion. Indel density was lower in microchromosomes than in macrochromosomes, in the Z chromosome than in autosomes, and in 100 bp of upstream sequence, 5'-UTR, and first introns than in intergenic DNA and in other introns. Indel density was highly correlated with single nucleotide polymorphism (SNP) density. The mean density of indels in pairwise sequence comparisons was 1.9 x 10(-4) indel events/bp, approximately 5% the density of SNPs segregating in the chicken genome. The great majority of indels involved a limited number of nucleotides (median 1 bp), with A-rich motifs being overrepresented at indel sites. The overrepresentation of deletions at tandem duplicates indicates that replication slippage in duplicate sequences is a common mechanism behind indel mutation. The correlation between indel and SNP density indicates common effects of mutation and/or selection on the occurrence of indels and point mutations.     

The insertion/deletion polymorphisms in the waxy gene of barley genetic resources from East Asia

The length polymorphism in the waxy gene, which encodes a granule-bound ADP-glucose-glucosyl transferase [granule-bound starch synthase I (GBSS I), E.C. 2.4.1.11] in barley (Hordeum vulgare), was found. The 5′ leader sequence of the waxy gene of barley germplasm from Japan and Korea was analyzed by the polymerase chain reaction (PCR). The waxy gene of these genetic stocks had three types of length polymorphisms, suggesting that there are insertion/deletion mutations at the 5′ leader sequence of the waxy gene. DNA sequence analysis of the polymorphic PCR products showed that: (1) a 403-bp deletion mutation, which included a complete exon I, was found in the wax allele and a 193-bp insertion sequence was located in the intron I, and (2) the insertion sequence was also located in intron I of the Wax allele. The identity of the insertion sequence was completely conserved between the wax allele and the novel Wax allele. These finding s implying that the wax allele, which was found in indigenous waxy barley, originated in non-waxy barley with the novel Wax allele. Received: 12 January 2001 / Accepted: 17 April 2001     

Genetic diversity associated with variation in silage corn digestibility for three<Emphasis Type="Italic"> O</Emphasis>-methyltransferase genes involved in lignin biosynthesis

Polymorphisms within three candidate genes for lignin biosynthesis were investigated to identify alleles useful for the improvement of maize digestibility. The allelic diversity of two caffeoyl-CoA 3-O-methyltransferase genes, CCoAOMT2 and CCoAOMT1, as well as that of the aldehyde O-methyltransferase gene, AldOMT, was evaluated for 34 maize lines chosen for their varying degrees of cell wall digestibility. Frequency of nucleotide changes averaged one SNP every 35 bp. Ninety-one indels were identified in non-coding regions and only four in coding regions. Numerous distinct and highly diverse haplotypes were identified at each locus. Numerous sites were in linkage disequilibrium that declined rapidly within a few hundred bases. For F4, an early flint French line with high cell wall digestibility, the CCoAOMT2 first exon presented many non-synonymous polymorphisms. Notably we found an 18-bp indel, which resembled a microsatellite and was associated with cell wall digestibility variation. Additionally, the CCoAOMT2 gene co-localized with a QTL for cell wall digestibility and lignin content. Together, these results suggest that genetic diversity investigated on a broader genetic basis could contribute to the identification of favourable alleles to be used in the molecular breeding of elite maize germplasm.     

Comparison of the waxy locus sequence from a non-waxy strain and two waxy mutants of spontaneous and artificial origins in barley

Molecular characterization of 3 alleles of the waxy gene from a non-waxy strain "Shikoku hadaka No. 84" (SH84), an indigenous waxy strain "Mochimugi D" (MMD), and an artificial waxy mutant strain "Shikoku hadaka No. 97" (SH97) of barley (Hordeum vulgare ssp. vulgare) was performed via a PCR direct sequencing strategy. The 3 haplotypes were analyzed in terms of single nucleotide polymorphisms, insertion/deletion mutations, and simple sequence repeat polymorphisms. In comparison with the barley non-waxy gene sequence deposited in the public DNA database, 110 polymorphic sites were found in the 5,190-bp sequenced region of the non-waxy strain SH84. A 418-bp deletion in the 5' non-coding sequence was identified in the indigenous waxy strain MMD. Except for the deletion in the promoter region, the spontaneous mutant wax allele and non-waxy allele were identical. Such highly conserved sequences provide evidence for the recent occurrence of a deletion event in the cultivated barley gene pool. Compared to the original variety SH84, induced waxy mutant SH97 had a base substitution of a C to T in the exon 5, which converting Gln-89 of the wild-type gene into a stop codon, suggesting the involvement of a nonsense-mediated mRNA decay. These results will be helpful for understanding the mechanism of the variable amylose content in waxy cultivars of cereal species.     

Repetitive Indel Markers within the ALMT1 Gene Conditioning Aluminium Tolerance in Wheat (Triticum aestivum L.)

ALMT1 gene encoding a membrane protein that facilitates an aluminium stimulated malate efflux has been characterised and mapped in wheat (Triticum aestivum L.). Here, we have identified molecular markers targeting insertion/deletion (indel) and SSR repeats within intron 3 region of the ALMT1 gene. Both the markers: ALMT1-SSR3a and ALMT1-SSR3b based on repetitive indels, exhibited complete cosegregation with Al tolerance, malate efflux, and a CAPS marker discriminating ALMT1-1 and ALMT1-2 alleles, in a doubled haploid population derived from Diamondbird (Al-tolerant)/Janz (Al-sensitive). A parental screen of 20 diverse wheat genotypes with repetitive indel markers indicated that six allele variants exist at the ALMT1SSR3 locus. Sequence analysis confirmed that these variations were due to indels, copy number of SSR repeats, and base substitution within SSR repeats. The higher level of variation in intron 3 suggests that this genomic region has been constrained by indels, SSR and single nucleotide polymorphisms. Results have proven that repetitive indel markers cosegregating with the Al tolerance locus will be useful for marker assisted selection and population and evolution studies.     

Diverse origins of waxy foxtail millet crops in East and Southeast Asia mediated by multiple transposable element insertions

The naturally occurring waxy and low-amylose variants of foxtail millet and other cereals, like rice and barley, originated in East and Southeast Asia under human selection for sticky foods. Mutations in the GBSS1 gene for granule-bound starch synthase 1 are known to be associated with these traits. We have analyzed the gene in foxtail millet, and found that, in this species, these traits were originated by multiple independent insertions of transposable elements and by subsequent secondary insertions into these elements or deletion of parts of the elements. The structural analysis of transposable elements inserted in the GBSS1 gene revealed that the non-waxy was converted to the low-amylose phenotype once, while shifts from non-waxy to waxy occurred three times, from low amylose to waxy once and from waxy to low amylose once. The present results, and the geographical distribution of different waxy molecular types, strongly suggest that these types originated independently and were dispersed into their current distribution areas. The patterns of GBSS1 variation revealed here suggest that foxtail millet may serve as a key to solving the mystery of the origin of waxy-type cereals in Asia. The GBSS1 gene in foxtail millet provides a new example of the evolution of a gene involved in the processes of domestication and its post-domestication fate under the influence of human selection. Electronic Supplementary Material Supplementary material is available for this article at     

The Complex Genetic Structure of Sugarcane Limits Identification of Additional SNP-Defined Simplex Alleles in Microsatellite Loci

Cultivated sugarcane possesses a large number of chromosomes (typically >80) which can be organised into eight homology groups, each containing approximately 12 homo(eo)logous chromosomes. Currently, microsatellite (SSR) markers are the most easily used markers for marker-assisted selection and other genetic applications. However, only SSR alleles that segregate as simplex and duplex markers can be incorporated into sugarcane maps using populations of ～300 progeny. Consequently only a subset of possible alleles have been mapped for a given SSR locus and are available for subsequent QTL analyses. Three sugarcane SSR loci, mSSCIR8, mSSCIR17 and mSSCIR18, were amplified, cloned and sequenced from the parents of an Australian sugarcane mapping population, IJ76-514 and . The sequences were examined to identify nucleotide sequence polymorphisms in the flanking regions that could provide additional simplex SSR allele markers. Alignment of the sequences revealed SNP, indel and repeat length variation and the pattern of sequence variation suggested multiple alleles for each SSR, including all of the alleles previously scored by fragment length. While the flanking regions of the SSR loci contained numerous SNPs and indels, none defined new simplex alleles within multiplex fragments and no new SSR simplex alleles were mapped. Furthermore, many of the sequence-defined alleles appear to be spurious and may have arisen from PCR-mediated recombination. These results confirm the difficulties associated with characterising allelic diversity in a polyploid species and the complexity of mapping in sugarcane.     

Apolipoprotein E variation at the sequence haplotype level: implications for the origin and maintenance of a major human polymorphism

Three common protein isoforms of apolipoprotein E (apoE), encoded by the epsilon2, epsilon3, and epsilon4 alleles of the APOE gene, differ in their association with cardiovascular and Alzheimer's disease risk. To gain a better understanding of the genetic variation underlying this important polymorphism, we identified sequence haplotype variation in 5.5 kb of genomic DNA encompassing the whole of the APOE locus and adjoining flanking regions in 96 individuals from four populations: blacks from Jackson, MS (n=48 chromosomes), Mayans from Campeche, Mexico (n=48), Finns from North Karelia, Finland (n=48), and non-Hispanic whites from Rochester, MN (n=48). In the region sequenced, 23 sites varied (21 single nucleotide polymorphisms, or SNPs, 1 diallelic indel, and 1 multiallelic indel). The 22 diallelic sites defined 31 distinct haplotypes in the sample. The estimate of nucleotide diversity (site-specific heterozygosity) for the locus was 0.0005+/-0.0003. Sequence analysis of the chimpanzee APOE gene showed that it was most closely related to human epsilon4-type haplotypes, differing from the human consensus sequence at 67 synonymous (54 substitutions and 13 indels) and 9 nonsynonymous fixed positions. The evolutionary history of allelic divergence within humans was inferred from the pattern of haplotype relationships. This analysis suggests that haplotypes defining the epsilon3 and epsilon2 alleles are derived from the ancestral epsilon4s and that the epsilon3 group of haplotypes have increased in frequency, relative to epsilon4s, in the past 200,000 years. Substantial heterogeneity exists within all three classes of sequence haplotypes, and there are important interpopulation differences in the sequence variation underlying the protein isoforms that may be relevant to interpreting conflicting reports of phenotypic associations with variation in the common protein isoforms.     

Mutation loci and intragenic selection marker of the granule-bound starch synthase gene in waxy maize

Four pairs of specific PCR primers have been designed on the basis of the sequence of the granule-bound starch synthase gene (GBSS; dominant non-waxy gene Wx) and used to amplify its homologous sequence from thirteen waxy and two non-waxy inbred lines. Results from electrophoresis indicated that the recessive waxy gene was wx, derived from the dominant non-waxy gene Wx by mutation at its 3′ end. The sequence of the mutated 3′ end was amplified by the TAIL-PCR technique. Sequence alignment showed that the mutation of the wx gene was caused by transposition of the aldehyde dehydrogenase gene rf2. Two pairs of specific primers were designed on the basis of the sequence difference between the dominant gene Wx and its mutated recessive allele wx and used as intragenic selection markers to identify individual plants of genotypes WxWx, Wxwx, and wxwx by PCR amplification from the segregating population of the F₂ generation crossed between waxy and non-waxy inbred lines. Iodine solution staining and starch component assay showed that all the 35 F₂ plants identified as genotype WxWx produced non-waxy kernels of the F₃ generation and that all 33 F₂ plants identified as genotype wxwx produced waxy kernels of the F₃ generation. This result can be used to improve the selection efficiency of waxy maize breeding and for selection of other single genes and major polygenes.     

The pattern of insertion/deletion polymorphism in Arabidopsis thaliana

Little is known about variation of nucleotide insertion/deletions (indels) within species. In Arabidopsis thaliana, we investigated indel polymorphism patterns between two genome sequences and among 96 accessions at 1215 loci. Our study identified patterns in the variation of indel density, size, GC content and distribution, and a correlation between indels and substitutions. We found that the GC content in indel sequences was lower than that in non-indel sequences and that indels typically occur in regions with lower GC content. Patterns of indel frequency distribution among populations were more consistent with neutral expectation than substitution patterns. We also found that the local level of substitutions is positively correlated with indel density and negatively correlated with their distance to the closed indel, suggesting that indels play an important role in nucleotide variation.     

Probabilistic whole-genome alignments reveal high indel rates in the human and mouse genomes

MOTIVATION: The two mutation processes that have the largest impact on genome evolution at small scales are substitutions, and sequence insertions and deletions (indels). While the former have been studied extensively, indels have received less attention, and in particular, the problem of inferring indel rates between pairs of divergent sequence remains unsolved. Here, I describe a novel and accurate method for estimating neutral indel rates between divergent pairs of genomes. RESULTS: Simulations suggest that new method for estimating indel rates is accurate to within 2%, at divergences corresponding to that of human and mouse. Applying the method to these species, I show that indel rates are up to twice higher than is apparent from alignments, and depend strongly on the local G + C content. These results indicate that at these evolutionary distances, the contribution of indels to sequence divergence is much larger than hitherto appreciated. In particular, the ratio of substitution to indel rates between human and mouse appears to be around gamma = 8, rather than the currently accepted value of about gamma = 14.     

Bovine spongiform encephalopathy associated insertion/deletion polymorphisms of the prion protein gene in the four beef cattle breeds from North China

Two insertion/deletion (indel) polymorphisms of the prion protein gene (PRNP), a 23-bp indel in the putative promoter region and a 12-bp indel within intron I, are associated with the susceptibility to bovine spongiform encephalopathy (BSE) in cattle. In the present study, the polymorphism frequencies of the two indels in four main beef cattle breeds (Hereford, Simmental, Black Angus, and Mongolian) from North China were studied. The results showed that the frequencies of deletion genotypes and alleles of 23- and 12-bp indels were lower, whereas the frequencies of insertion genotypes and alleles of the two indels were higher in Mongolian cattle than in the other three cattle breeds. In Mongolian cattle, the 23-bp insertion / 12-bp insertion was the major haplotype, whereas in Hereford, Simmental, and Black Angus cattle, the 23-bp deletion / 12-bp deletion was the major haplotype. These results demonstrated that Mongolian cattle could be more resistant to BSE, compared with the other three cattle breeds, because of its relatively low frequencies of deletion genotypes and alleles of 23- and 12-bp indel polymorphisms. Thus, this race could be important for selective breeding to improve resistance against BSE in this area.     

Pattern and rate of indel evolution inferred from whole chloroplast intergenic regions in sugarcane, maize and rice.

Microstructural changes such as insertions and deletions (=indels) are a major driving force in the evolution of non-coding DNA sequences. To better understand the mechanisms by which indel mutations arise, as well as the molecular evolution of non-coding regions, the number and pattern of indels and nucleotide substitutions were compared in the whole chloroplast genomes. Comparisons were made for a total of over 38 kb non-coding DNA sequences from 126 intergenic regions in two data sets representing species with different divergence times: sugarcane and maize and Oryza sativa var. indica and japonica. The main findings of this study are: (i) Approximately half of all indels are single nucleotide indels. This observation agrees with previous studies in various organisms. (ii) The distribution and number of indels was different between two data sets, and different patterns were observed for tandem repeat and non-repeat indels. (iii) Distribution pattern of tandem repeat indels showed statistically significant bias towards A/T-rich. (iv) The rate of indel mutation was estimated to be approximately 0.8 +/- 0.04 x 10(-9) per site per year, which was similar to previous estimates in other organisms. (v) The frequencies of nucleotide substitutions and indels were significantly lower in inverted repeat (IR).