Use of SRAP markers to assess genetic diversity and population structure of wild, cultivated, and ornamental pomegranates (Punica granatum L.) in different regions of Iran

Sequence-related amplified polymorphism (SRAP) was used to assess the genetic diversity of 63 cultivated, wild, and ornamental pomegranate genotypes from five different geographical regions of Iran. A total of 250 fragments were amplified using 13 primer combinations; among these, 133 bands (53?%) were polymorphic. The average PIC value was 0.28 over all PCs. The genetic distance among genotypes ranged from 0.10 to 0.37 with an average of 0.24. Cluster analysis using the neighbor-joining (NJ) method suggested there are close relationships between ornamental and some wild genotypes. Although AMOVA results revealed significant differences in the genetic diversity among the regions (P?=?0.0048), the genetic variation was mainly caused by variation of intra regions. The results indicated low genetic differentiation (Fst?=?0.025) and high gene flow (Nm?=?2.28) among regions. These results confirmed that SRAP markers could be powerful tools and an effective marker system for determining the genetic diversity and population genetic structure of the pomegranate.     

Meiotic behaviour of tetraploid wheats (<Emphasis Type="Italic">Triticum turgidum</Emphasis> L.) and their synthetic hexaploid wheat derivates influenced by meiotic restitution and heat stress

Meiotic restitution is considered to be a common mechanism of polyploidization in plants and hence is one of the most important processes in plant speciation. Meiotic behaviour of plant chromosomes is influenced by both genetic and environmental factors. In this study, the meiotic behaviour of cereal crops was investigated, which includes tetraploid wheat genotypes (with and without the meiotic restitution trait) and their derivates (synthetic hexaploid wheats and a doubled haploid (DH) line), grown at two planting dates in the field. In addition, two local landraces of emmer wheat (Triticum turgidum ssp. dicoccum), one wheat cultivar (Chinese spring), one DH triticale cultivar (Eleanor) and one rye accession were included. Immature spikes of mid-autumn and end-winter sowing plants were collected in April and May 2008, respectively, fixed in Carnoy’s solution and stained with hematoxylin. Pollen mother cells (PMCs) from anthers at different stages of meiotic process were analysed for their chromosomal behaviour and irregularities. Meiotic aberrations such as laggards, chromosome bridges, micronuclei, abnormal cytokines, chromatin pulling and meiotic restitution were observed and the studied genotypes were accordingly ranked as follows: triticale > synthetic hexaploid wheats > tetraploid wheats possessing meiotic restitution > tetraploid wheats lacking meiotic restitution > rye. The results indicated that the samples that had been planted in the autumn, thus experiencing an optimum temperature level at the flowering stage, exhibited less meiotic irregularities than winter planting samples that encountered heat stress at the flowering period.     

AFLP targeting of the 1-cM region conferring the vrs1 gene for six-rowed spike in barley, Hordeum vulgare L.

Spike morphology is a key characteristic in the study of barley domestication, yield, and use. Multiple alleles at the vrs1 locus control the development and fertility of the lateral spikelets of barley. We developed five amplified fragment length polymorphism (AFLP) markers tightly linked to the vrs1 locus using well-characterized near-isogenic lines as plant materials. The AFLP markers were integrated into three different maps, in which 'Azumamugi' was used as the maternal parent. Of the three maps, Hordeum vulgare L. 'Azumamugi' x H. vulgare 'Golden Promise' showed recombination of the AFLP markers and the vrs1 locus (closest, 0.05 cM), providing the best mapping population for positional cloning of alleles at the vrs1 locus. Conversion of AFLP bands into polymorphic sequence-tagged sites (STSs) is necessary for further high-throughput genotype scoring and for bacterial artificial chromosome (BAC) library screening. We cloned and sequenced the five AFLP bands and synthesized primer pairs. PCR amplification generated DNAs of the same size from all four parental lines for each marker. Restriction endonuclease treatment of e40m36-1110/AccIII, e34m13-260/Psp1406I, e52m32-270/FokI, and e31m26-520/MnlI revealed fragment length polymorphisms between 'Azumamugi' and all the two-rowed parents. Allelism between the AFLPs and corresponding STS markers was confirmed genetically, indicating the usefulness of the STSs as genetic markers.     

Cytogenetic and crossability studies in hulled wheat collected from Central Zagros in Iran

Underutilized hulled wheat species may be valuable sources of genes for wheat improvement. Hulled wheats of mountainous Central Zagros area of Iran are poorly studied with unclear classification status. In this study, the region was extensively searched and hulled wheats were sampled from local farmers’ fields. Cytogenetic studies of several samples revealed that these wheats are tetraploid with a chromosome number of 2n = 28. Considerable level of karyotypic resemblance was detected between these hulled wheats and durum wheat genotypes, suggesting their genomic similarity. To compare the degree of cross compatibility, F1 progenies were produced using three durum accessions and a bread wheat cultivar as female parent in crosses with two of the collected hulled wheat samples, namely Zarneh and Jonghan. The highest crossability rate was observed when Aria, a durum wheat cultivar, was used as female parent. In general, Jonghan showed higher crossability rate with both bread and durum cultivars as compared to Zarneh. The meiotic behavior of F1 genotypes was analyzed to determine genomic characteristics of hulled wheat samples. Microscopic examination of pollen mother cells at meiotic metaphase strongly suggested the AABB type genome for the hulled wheat samples. Meiotic behaviors of hybrids derived from cross with Zarneh as male parent showed more abnormalities than the other male parent. Meiotic restitution, chromosomes laggards and chromosomal bridges were noticed and the extent varied for each cross. It may be concluded that the hulled wheats of Central Zagros that are currently cultivated are mainly tetraploids emmer containing AABB genome and are crossable with durum wheat, producing hybrids mostly with normal meiotic behaviors.     

Assessment of genetic diversity and population genetic structure of <Emphasis Type="BoldItalic">Carthamus</Emphasis> species and Iranian cultivar collection using developed SSR markers

Genetic diversity during prebreeding or postbreeding programme, is the key pillar to characterize the valuable traits and gene of interest. Whereas, superior or inferior heterotic performance of \(\hbox {F}_{1}\) depend on the diverse nature of their pedigree. Therefore, the aim of this study was to see the diversity between the interspecific crosses and effect of heterosis, and inheritance for the morphological traits and ToLCV resistance. All the 24 \(\hbox {F}_{1}\) interspecific crosses were classified into four clusters on the basis of morphological traits as well as simple sequence repeat (SSR) markers. Among the \(\hbox {F}_{1}\) hybrids, 23 were grouped into clusters II, III and IV with different phylogeny, while \(\hbox {PBC} \times \) EC 521080 was individual with cluster I. On the basis of visual observation of fruit colour, deep red and green colours in the crosses of S. pimpinellifolium (EC 521080) and S. habrochaites (EC 520061) exhibited dominant effects. In context of heterosis breeding, the crosses which were made using Solanum pimpinellifolium (EC 521080), S. chmielewskii (EC 520049) and S. cerasiforme (EC 528372) were better for yield capacity and the crosses of S. habrochaites (EC 520061) exhibited low and negative heterosis for ToLCV resistance. The \(\hbox {F}_{2}\) progenies were segregated in various Mendelian ratio as follows 3:1, 1:2:1, 1:3, 13:3, 15:1, 12:3:1 and 9:6:1 for ToLCV disease reaction of incidence, plant growth habit and fruit colour appearance, respectively. Therefore, these interspecific crosses can be utilized for developing high yield, impressive fruit colour combiners and resistant hybrids/varieties of tomato.     

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.     

Mapping QTL for grain yield, yield components, and spike features in a doubled haploid population of bread wheat

A doubled haploid (DH) population derived from a cross between the Japanese cultivar 'Fukuho-kumogi' and the Israeli wheat line 'Oligoculm' was used to map genome regions involved in the expression of grain yield, yield components, and spike features in wheat (Triticum aestivum L). A total of 371 markers (RAPD, SSR, RFLP, AFLP, and two morphological traits) were used to construct the linkage map that covered 4190 cM of wheat genome including 28 linkage groups. The results of composite interval mapping for all studied traits showed that some of the quantitative trait loci (QTL) were stable over experiments conducted in 2004 and 2005. The major QTL located in the Hair-Xpsp2999 interval on chromosome 1A controlled the expression of grains/spike (R(2) = 12.9% in 2004 and 22.4% in 2005), grain weight/spike (R(2) = 21.4% in 2004 and 15.8% in 2005), and spike number (R(2) = 15.6% in 2004 and 5.4% in 2005). The QTL for grain yield located on chromosomes 6A, 6B, and 6D totally accounted for 27.2% and 31.7% of total variation in this trait in 2004 and 2005, respectively. Alleles inherited from 'Oligoculm' increased the length of spikes and had decreasing effects on spike number. According to the data obtained in 2005, locus Xgwm261 was associated with a highly significant spike length QTL (R(2) = 42.33%) and also the major QTL for spikelet compactness (R(2) = 26.1%).     

Studying Genetic Variability of Pomegranate (Punica granatum L.) Based on Chloroplast DNA and Barcode Genes

Chloroplast DNA has been used extensively to analyze plant phylogenies at different taxonomic levels because of its size, organization and sequence conservation. In the present research, two chloroplastic regions, petA–psaJ, trnC–trnD and four DNA barcodes (trnH–psbA, ITS, rbcL, matK), were used to introduce suitable regions for the assessment of genetic diversity among P. granatum L. genotypes. Analysis of psbE–petL in petA–psaJ region revealed 1,300 nucleotides with 4.29 % genetic diversity among genotypes, while trnC–petN in trnC–trnD region showed 1.8 % genetic diversity. Therefore, despite the results obtained from the study of other plants, the trnC–trnD region had a low potential for the evaluation of diversity among pomegranate genotypes. Analysis of DNA barcodes in pomegranate showed that trnH–psbA (genetic diversity 2.91 %) provides the highest intra-species variation, followed by ITS (genetic diversity 0.44 %). Eighteen genotypes from different geographical origins of Iran were used to investigate psbE–petL and trnH–psbA potential as novel barcodes to determine genetic polymorphism and characterize pomegranate genotypes. The results suggested that two regions, psbE–petL and trnH–psbA, were more suitable for determining intra-species relationships of pomegranate.