Genetic variation and species relationships in Himalayan buckwheats as revealed by SDS PAGE of endosperm proteins extracted from single seeds and RAPD based DNA fingerprints

SDS PAGE of endosperm proteins and␣RAPD profiles from different accessions of Himalayan buckwheat were studied to determine their genetic variation and phylogenetic relationships. Comparisons based on Jaccard’s coefficient and UPGMA clustering revealed interrelationships broadly in conformity with conventional treatments. Cluster analysis of the endosperm protein profiles of the selected accessions revealed three broad clusters. A moderate level of intraspecific variability was detected in the endosperm protein profile of different accessions of Fagopyrum esculentum, Moench. Three subgroups were detected in cluster 1. Subgroup 1 included varieties designated as Local, Kamroo local, OC-2 and␣VL-7 which were collected from VPKAS, Almora. Local, Kamroo local and OC-2 showed a similarity coefficient of 1.0 inspite of their being identified as different accessions. VL-7 emerged out separately from the rest of the three accessions. Accessions having winged grains and those having striations on the seed coat formed a 2nd and 3rd subgroup, respectively. IC-13145 which been identified as “F. himalianum”, showed 100%␣similarity in endosperm protein profile with IC-13376 (F. esculentum) and 85–90% similarity which other accessions of F. esculentum. Our results indicate that “F. himalianum” belongs to the esculentum group and should not be regarded as a different species. Cluster 2 included all the accessions of F. tataricum (L.) Gaertn. with Sangla 1, 2, 3, 5, 6, 7 and IC-412863 showing 100% similarity. F. cymosum emerged as a separate group distinct from both esculentum and tataricum. Accessions of F. tataricum and F. cymosum did not show significant intraspecific variation in the SDS PAGE profile of endosperm proteins. Out of the 20 primers used, 3 generated robust, easily interpretable amplified products. While a 1490 bp and a 300 bp RAPD was detected only in F. tataricum, a 1154 bp RAPD was detected in all accessions of F. tataricum except in Shimla B-1. This variety is early maturing and has high seed yields.     

Phylogenetic relationships among natural populations of perennial buckwheat, Fagopyrum cymosum Meisn., revealed by allozyme variation

Twenty natural populations of F. cymosum, an insect-pollinated allogamous wild species of Fagopyrum, were investigated for their chromosome number and allozyme variation at 10 Ioci encoding 8 enzymes. Diploid populations were obtained in Sichuan, Yunnan and Tibet in China, whereas tetraploid populations were obtained in Tibet, the Himalayan hills, Thailand and southern China. Both diploid and tetraploid populations maintained a large amount of allozyme variation. The average heterozygosity, H_e, ranged from 0.045 to 0.389 (0.213 on average). Tetraploid populations showed higher H_e values than diploid populations. Natural populations of F. cymosum were locally well differentiated (G_ST = 0.322), probably due to reproductive isolation between the two ploidy levels and to distribution over wide areas from southern China to the Himalayan hills. The phylogenetic tree constructed by the neighbor-joining method based on allozyme variation clarified two distinct groups of diploid populations, the Sichuan and Yunnan groups. As for the tetraploid populations, polyploidization occurred twice independently, once in Yunnan and once in eastern Tibet. Tetraploid F. cymosum diffused to warmer areas such as southern Yunnan and Thailand as well as to cooler areas of Tibet and the high Himalayan hills and became the most widely distributed of the Fagopyrum species.     

Analyses of the seed protein contents on the cultivated and wild buckwheat <Emphasis Type="Italic">Fagopyrum esculentum</Emphasis> resources

The seed protein contents of 179 accessions belonging to ten species of genus Fagopyrum were determined by means of the Kjeldahl method. The results indicated that there are significant differences of seed protein content among different accessions within the same species. The average protein content of F. esculentum is 12.94%, ranging from 8.81–18.71%, and the protein content of Sibano is the highest, up to 18.71%, Gantian 1 the lowest with 8.81%. The average protein content of tartary buckwheat is 12.17%, with the range from 7.82–18.94%, and the protein content of cultivated tartary buckwheat Qianku 2 is the highest (18.59%), and that of Ganku 1 (7.82%) the lowest. Moreover, there are significant differences of seed protein content among different buckwheat species and between the different buckwheat types (between common buckwheat and tartary buckwheat, between the diploid and the tetraploid, between the cultivated and the wild, and between the big-achene group and the small-achene group). The average seed protein content of F. giganteum is the highest in all tested species, up to 17.81% with the range of 13.91–21.27%, and that of F. callianthum the lowest, only 8.31%. This study was financed by the Natural Science Foundation of China (30270852, 30471116), Program for New Century Excellent Talents in University (NCET-2004-0913), Guizhou Key International Cooperation Project (Qianke Hewai G Zi 2005#400108), Guizhou Oversea Talent Project (Qianren Xiangmu Zizhu Hetong 2004#02), and Key Project of Students in Guizhou Normal University (GNU-SP-2005-SJXY-A01)     

Karyotype characterization reveals an up and down of 45S and 5S rDNA sites in <Emphasis Type="Italic">Crotalaria</Emphasis> (Leguminosae-Papilionoideae) species of the section Hedriocarpae subsection Macrostachyae

The genus Crotalaria is one of the largest within the family Leguminosae-Papilionoideae, with more than 600 species. However, few karyotypes have been described. In the present paper, five species belonging to the section Hedriocarpae were studied (subsection Machrostachyae), in order to better understand chromosomal evolution in Crotalaria. The results reveals that all species presented 2n = 2x = 16 with symmetrical karyotypes, and slight differences in the chromosome morphology. A secondary constriction was identified at short arm of the pair 1. The 45S rDNA was mapped in the secondary constriction and adjacent heterochromatin (NOR-heterochromatin) and a minor site was identified in C. ochroleuca. The 5S rDNA was mapped linked to 45S rDNA at chromosome 1 short arm in all species. Additional sites for 5S rDNA were identified in C. pallida, C. striata and C. mucronata. Heterochromatin blocks around the centromeres are not CMA⁺ neither DAPI⁺. The karyotypes of the subsection Macrostachyae are characterized by an inversion at chromosome pair one in relation to previous specialized floral species analyzed. Additional sites of 45S and 5S rDNA were assumed to be a result of transposition events by different ways. The results suggest heterochromatin differentiation and the position of ribosomal genes indicates chromosomal rearrangements during evolution. Karyotype characteristics corroborate the morphological infrageneric classification.     

Variation for stomatal characteristics and water use efficiency among diploid,tetraploid and hexaploid Iranian wheat landraces

Wheat is one of the most important crops in the world. Its study has involved anatomy, ecology, physiology, molecular biology, biotechnology, and cultivation. Knowledge of the relationship of diploid, tetraploid and hexaploid wheat with stomatal characteristics and water-use efficiency is spare and is subject to argument. The present study was aimed to examine different characteristics of stomata in 28 Iranian landraces belonging to the species Triticum monococcum (2n = 2x = 14), Triticum durum (2n = 4x = 28) and Triticum aestivum (2n = 6x = 42), respectively and investigated a possible relationship between these characteristics and water use efficiency by pot cultivation experiments. The results revealed large variation among landraces as well as between the different species for stomatal frequency and size. The diploid wheat species had the highest stomatal frequency and the lowest stomatal length and width. The hexaploid species had a lower stomatal frequency than the tetraploid species. A highly significant relationship was noted between the value of those traits on the adaxial and abaxial surfaces of the leaf. The ratio of adaxial to abaxial values appeared to be constant for a given species. Both stomatal frequency and size were associated with ploidy level, but also with the nature of the constituting genomes of the species. A highly significant negative association was found among accessions between stomatal frequency and size. As a consequence, the variation for stomatal area per unit leaf area was less than for the other traits. Diploid and hexaploid wheat have significantly higher water use efficiency, compared to tetraploid wheat. No clear association was found, however, between water use efficiency and stomatal characteristics.     

Collection and evaluation of the genus <Emphasis Type="Italic">Lilium</Emphasis> resources in Northeast China

Northeast China is known as an important distribution region of the genus Lilium, with ten native species reported among the 55 species found in the whole country so far. This paper is about the distribution, collection, classification and evaluation of the Lilium germplasm collected from this area. The accessions were identified and classified into six species and three variants, including Lilium lancifolium Thunb., L. pumilum DC., L. dauricum Ker-Gawl, L. cernuum Komar., L. amabile Palib., L. distichum Nakai, L. concolor Salisb. var. buschianum (Lodd.) Baker, L. concolor Salisb. var. megalanthum Wang et Tang, and L. leichtlinii Hook. f. var. maximowiczii (Regel) Baker. Nevertheless, the species L. callosum Sieb. has not been collected by now. Chromosome counts showed that L. lancifolium was triploid (2n = 3x = 36) and the other species were diploid (2n = 2x = 24). Besides L. distichum, chromosome number variations were observed in the root-tip cells among the other eight species. Haploid cells (2n = x = 12) were discovered in L. lancifolium. B-chromosomes were observed in L. lancifolium, L. dauricum, L. pumilum, L. concolor var. buschianum and L. concolor var. megalanthum. The analytic hierarchy process was employed to evaluate ornamental characteristics and potential utilization of nine identified species. It seemed that L. lancifolium, L. cernuum, L. pumilum and L. concolor var. buschianum had better ornamental value and utilization potential than others.     

Inheritance of the branching in hybrid populations among tetraploid wheat species and the new branched spike line 166-Schakheli

The new branched spike form of wheat was synthesized from a cross between a complex wheat line 171ACS {[(T. durum Desf. × Ae. tauschii Coss.) × S. cereale L. ssp. segetale Zhuk.] × T. aestivum L. ‘Chinese Spring’} (2n = 6x = 42, AABBDD) and durum wheat variety T. durum Desf. ‘Bereketli-95’ (2n = 4x = 28, AABB). This branched spike form is distinguished significantly from the other branched spike forms known so far. Later on basis of these plants have been developed the branched spike lines. This study was aimed to generate the segregating populations from reciprocal (F₁–F₃) and backcross (BC₁F₁–BC₁F₃) crosses between one of such lines—166-Schakheli (2n = 4x = 28, AABB) and tetraploid wheat species (T. polonicum L., T. turanicum Jakubz., T. durum Desf.) for revealing the inheritance character of this branching trait and study meiotic behavior in reciprocal (F₁, F₂) and backcross (BC₁F₁) progenies. Results showed that this trait is controlled by a single recessive gene despite certain irregularity against Mendelian law in F2 generations and does not depend on gene dosage, i.e., number of chromosomes.     

Analysis of population substructure,genetic differentiation and phylogenetic relationships among selected Asiatic <Emphasis Type="Italic">Vigna</Emphasis> Savi species

Random amplified polymorphic DNA markers were used to study sub-structure and genetic differentiation amongst 31 populations (seven cultivated and 24 wild populations) belonging to 14 Asiatic Vigna species. Ten pre-selected RAPD primers generated 152 polymorphic amplification products. Estimates of polymorphism indices were higher for the wild taxa in comparison to the cultivated forms. F_ST values between populations ranged from 0.111 to 0.801 and Nei’s genetic diversity values between and within species varied from 0.26 to 0.70 and 0.04 to 0.56 respectively. The high F_ST and F_CT values indicated strong subdivision of populations and high differentiation among species. Analysis of molecular variance was performed by grouping the populations conforming to specific species. AMOVA was also performed separately to better resolve the differentiation of species within mungo–radiata complex. Molecular phylogenetic relationships amongst the species of radiata–mungo complex; namely, black gram (V. mungo (L.) Hepper), green gram (V. radiata (L.) Wilczek), V. radiata var. sublobata, V. radiata var. setulosa, V. mungo var. silvestris and V. hainiana, were studied through cluster analyses. Two distinct groups were recognized within the complex, with population samples of V. hainiana forming one cluster. Further, V. hainiana appeared to be equidistant to both V. radiata and V. mungo.     

Cytological and genetic mapping of the gene for four-awned phenotype in <Emphasis Type="Italic">Triticum carthlicum</Emphasis> Nevski

A striking feature of Triticum carthlicum Nevski (2n = 4x = 28, AABB genome) is an awn-like appendage on the glume, so all the spikelets appear four-awned. From the word “tetraaristatus” (four-awned), the locus was named “t” to distinguish it from the b ₁ locus on chromosome 5A and b2 locus on chromosome 6B for awn formation. The aims of present study was to determine the chromosomal location of the t locus in tetraploid wheat T. carthlicum, and (2) to assess linkage relationships of t, Rht12 using microsatellite markers in T. carthlicum. Combined cytological evidence and microsatellite mapping showed that t was located on the chromosome 5AL. The alignment of the gene was Xgwm291–(6.4 cM)–t–(6.7 cM)–Xgwm410 in F₂ of T. carthlicum #521/LD222, and Xhbg219–(12.4 cM)–t–(5.1 cM)–Xgwm410–(6.2 cM) –Rht12 in F₂ of ANW 16C/#521 on the 5AL. The t locus was different from b1 locus, because it was known that the semi-dwarf Rht12 gene was completely linked with b1 gene. We discussed that the four-awned phenotype of T. carthlicum was introduced from Triticum aestivum L. ssp. carthlicoides.     

Genetic diversity and relationships among cultivated and wild accessions of tartary buckwheat (Fagopyrum tataricum Gaertn.) as revealed by RAPD markers

The methodology of sampling and the selection of a proper marker systemfor the analysis of accessions are major concerns in the evaluation of gene bank material. In our study the RAPD analysis of bulked DNA samples and single seedsDNA was successfully employed to evaluate intra- and inter-population geneticvariability of cultivated and wild tartary buckwheat accessions. The bulkingapproach enabled the distinction of all 40 analysed accessions and theirseparation into geographically well defined clusters. Three wild populations,two from Sichuan and one from Qinghai, formed a group that was geneticallyrelatively distant from wild populations from Tibet and all cultivatedlandraces which, on the other hand, exhibited very close relationships. Thesingle seed study that was used after bulked DNA analysis provided detailedinformation of the genetic variation present within some accessions of specialinterest. A moderate level of genetic variability was detected betweenaccessions and the variability was partitioned into between- andwithin-population components. On average, most of the detected variation ispresent between F. tataricumpopulations. The genetic and geographic distribution of variability is furtherdiscussed. We demonstrated the usefulness of combining bulking and single seedstudy approaches for the effective evaluation of genetic variability inF. tataricum accessions that couldalso have wider applicability in the management of plant genetic resources andphylogenetic studies.     

Genetic relationships among Hibiscus syriacus, Hibiscus sinosyriacus and Hibiscus paramutabilis revealed by AFLP, morphology and ploidy analysis

The genetic relationships between and within Hibiscus syriacus, Hibiscus sinosyriacus and Hibiscus paramutabilis, three winter hardy Hibiscus species native to China, were analysed by the amplified fragment length polymorphisms (AFLP) technique and by morphological evaluation of flower and leaf characteristics. Both methods clearly discriminated between the three species. H. sinosyriacus was classified as an intermediate form between H. paramutabilis and H. syriacus; however, it showed a higher similarity to H. paramutabilis. The different H. syriacus cultivars could be identified by AFLP analysis, while also leaf indices clustered the different cultivars in small groups. Flow cytometry showed that both triploid and tetraploid cultivars occur in the H. syriacus assortment. In general triploid cultivars had larger flowers compared to diploid cultivars.     

Identification of genomic constitutions of <Emphasis Type="Italic">Oryza</Emphasis> species with the B and C genomes by the PCR-RFLP method

Oryza officinalis complex is the largest and the most complicated group in the genus Oryza L., consisting of about ten species with the B, C, BC, CD, and E genomes. Taxonomy and identification of the species, particularly those with the B, C and BC genomes, are difficult due to the similar morphology and overlapping distribution of some species. The difference in ploidy levels of some species adds more complexity. In the present study, we surveyed 64 accessions of rice germplasm in the O. officinalis complex using RFLP analysis of PCR-amplified Adh genes in addition to chromosome counting. The results confirmed that all O. rhizomatis accessions are diploids with the C genome, whereas all O. minuta accessions are tetraploids having the BC genome. However, both diploid and tetraploid forms were found for the accessions identified in the genebank as O. officinalis, O. punctata and O. eichingeri. The tetraploid form of O. officinalis with the BC genome is exclusively distributed in India and has been described as O. malampuzhaensis. The tetraploid form of O. punctata which has been called O. schweinfurthiana by some workers was found to be as widely distributed as its diploid form in Africa. It is noteworthy that two accessions that had been determined as tetraploid O. officinalis were actually belonging to a species with the CD genome (O. latifolia). Our results promote a better understanding of the genomic constitutions of many accessions in the O. officinalis complex and correct determination of the genebank material, which serves as an important basis of germplasm cataloguing for further research and utilization.     

Physicochemical Properties of Common and Tartary Buckwheat Starch

Physicochemical properties of starch of three common (Fagopyrum esculentum) and three tartary (F. tataricum) buckwheat varieties from Shanxi Province, China, were compared. Starch color, especially b*, differed greatly between tartary (7.99–9.57) and common (1.97–2.42) buckwheat, indicating that removal of yellow pigments from tartary buckwheat flour may be problematic during starch isolation. Starch swelling volume in water of reference wheat starch (2.8% solids and 92.5°C) was 20.1 mL; for the three common buckwheat starches it was 27.4–28.0 mL; and for the three tartary buckwheat starches it was 26.5–30.8 mL. Peak gelatinization temperature (T_p) in water was 63.7°C for wheat starch, 66.3–68.8°C for common buckwheat and 68.8–70.8°C for tartary buckwheat. T_p of all samples was similarly delayed (by 4.0–4.8°C) by 1% NaCl. Enthalpy of gelatinization (ΔH) was higher for all six buckwheat starches than it was for wheat starch. However, one common buckwheat sample had significantly lower ΔH than the others. Starch pasting profiles, measured by a Rapid Visco-Analyzer, were characteristic and similar for all six buckwheat starches, and very different from the reference wheat starch. A comparison of pasting characteristics of common and tartary buckwheat starches to wheat starch indicated similar peak viscosity, higher hot paste viscosity, higher cool paste viscosity, smaller effect of NaCl on peak viscosity, and higher resistance to shear thinning. Texture profile analysis of starch gels showed significantly greater hardness for all buckwheat samples when compared to wheat starch.     

High proportion of diploid hybrids produced by interspecific diploid × tetraploid <Emphasis Type="Italic">Sorghum</Emphasis> hybridization

A perennial version of grain sorghum [S. bicolor (L.) Moench] would create opportunities for greatly reducing tillage and preventing soil degradation. Efforts to select for perenniality and grain production among progeny of hybrids between S. bicolor (2n = 20) and the weedy tetraploid perennial S. halepense (L.) Pers. (2n = 40) are complicated in that F₁ hybrids produced by diploid × tetraploid sorghum crosses are usually tetraploid. In 2013, a set of random pollinations between 19 diploid cytoplasmic male-sterile inbred lines and 43 tetraploid perennial plants produced 165 F₁ hybrid plants, more than 75% of which had highly atypical plant, panicle, and seed phenotypes. Phenotypic segregation in F₂ populations derived from atypical hybrids was also anomalous. Examination of mitotic metaphase cells in F₁ or F₂ root tips revealed that 129 of the 165 hybrids were diploid. Parentage of the diploid progenies was confirmed using simple-sequence repeat analysis. The mechanism by which diploid hybrids arise from diploid × tetraploid crosses is unknown, but it may involve either production of monohaploid (n = 10) pollen by the tetraploid parent or chromosome elimination during early cell divisions following formation of the triploid zygote. The ability to produce diploid germplasm segregating for S. bicolor and S. halepense alleles could have great utility, both for the development of perennial sorghum and for the improvement of conventional grain sorghum.     

Karyomorphology of eighteen species of genus <Emphasis Type="Italic">Epimedium</Emphasis> (Berberidaceae) and its phylogenetic implications

The karyomorphology of 18 Epimedium species were reported in this study. Among 18 species, the karyomorphology of eight taxa, namely E. ecalcaratum, E. pauciflorum, E. lishihchenii, E. dolichostemon, E. pudingense, E. baojingense, E. yingjiangense and E. shuichengense were reported for the first time. The chromosome numbers of all species studied are 2n = 2x = 12, except E. yingjiangense 2n = 4x = 24. Tetraploid was reported in genus Epimedium for the first time. All the Epimedium species, investigated in the present research, have a uniform karyotype with two types of chromosome, metacentric and submetacentric, except E. leptorrhizum and E. sagittatum, of which the sixth pair of chromosomes were subteleocentric. A secondary constriction was commonly found on the proximal side of the short arm of the chromosome pair 1 or 2. The karyotype symmetry of all investigated species was relatively primitive 1A, 2A or 3A. The speciation, infrageneric and intergeneric relationship of Epimedium in Berberidaceae were discussed.     

AFLP analysis in pigeonpea (<Emphasis Type="Italic">Cajanus cajan</Emphasis> (L.) Millsp.) revealed close relationship of cultivated genotypes with some of its wild relatives

A total of 561 amplified fragment length polymorphism (AFLP) loci were generated and used to study the genetic diversity of wild and cultivated genotypes of pigeonpea. Out of 561 marker loci, 558 were polymorphic with an average of 76.12 bands. Analysis of molecular variation (AMOVA) revealed significant strong population structure when genotypes were structured according to continent of origin (F_ST = 0.22) also when structured into cultivated and wild genotypes (F_ST = 0.16). Maximum polymorphic loci were observed in cultivated species C. cajan (352) which is due to more number of genotypes used while, a minimum number of 45 polymorphic bands were obtained in C. acutifolius. Highest (0.291) average gene diversity was recorded in species C. mollis and lowest (0.079) average gene diversity was recorded in C. acutifolius. The 33 genotypes grouped into 14 clusters at 26% Jaccard’s similarity coefficients. Clustering analysis revealed most cultivated genotypes grouped into one major cluster while, the wild genotypes grouped into many clusters at 26% Jaccard’s similarity revealing greater diversity within wild species as compared to cultivated genotypes. From among the various cultivated genotypes studied, four genotypes BRG 3, ICP 7035, TTB 7 and ICP 8863 were molecularly and morphologically diverse and were used as parental genotypes to study nature of inheritance and to identify markers linked to sterility mosaic disease.     

Effect of buckwheat (Fagopyrum esculentum) on soil‐phosphorus availability and organic acids

As a cover crop, buckwheat (Fagopyrum esculentum) may increase soil‐P availability. Buckwheat was grown in low‐P and P‐fertilized field plots, and organic anions were measured in rhizosphere soil. Soil‐P availability was not affected by buckwheat, but the concentration of rhizosphere tartrate^2– was significantly higher (p < 0.005) in low‐P vs. P‐fertilized plots. This suggests that organic‐anion root exudation may have a role in buckwheat‐rhizosphere P dynamics.     

Ploidic and Molecular Analysis of ‘Morado de Huetor’ Asparagus (Asparagus officinale L.) Population; A Spanish Tetraploid Landrace

A study has been conducted into the genetic variation analysis of the tetraploid asparagus landrace ‘Morado de Huetor’ and its relationship with current commercial cultivars using Random Amplified Polymorphic DNA (RAPD) molecular markers. The presence of different ploidic levels in the ‘Morado de Huetor’ landrace has been also studied using cytogenetic analysis. Ten decamer oligonucleotides were used to obtain RAPD markers and to characterise 52 individuals of ‘Morado de Huetor’, 7 of the tetraploid cultivar ‘Purple Passion’, and 55 of 5 diploid hybrid commercial cultivars. Jaccard similarity index was calculated and a cluster analysis using UPGMA (Unweighted Pair-Group Method using Arithmetic Average) was performed. Tetraploid asparagus, ‘Morado de Huetor’ and ‘Purple Passion’, were well differentiated from the diploid ones showing a higher genetic variability. This result suggests a different origin for tetraploid and diploid asparagus varieties. Within the diploid cultivars a variety distribution was obtained. A specific monomorphic band (OPB20₈₈₃) was found in tetraploid varieties. Within the diploid cultivars, two bands (OPB20₈₃₀, OPC15₇₀₅) can be used to distinguish between the hybrid cultivars used in this study. Tri-, penta-, hexa-, and octoploid plants were found in ‘Morado de Huetor’. The origin of these ploidic levels is discussed and their use in the development of new varieties is proposed. In conclusion, ‘Morado de Huetor’ is a genetic resource that could be used to increase the narrow genetic background reported in diploid asparagus cultivars.     

Genetic diversity of HMW glutenin subunits in diploid,tetraploid and hexaploid <Emphasis Type="Italic">Triticum</Emphasis> species

The genetic variations of high-molecular-weight (HMW) glutenin subunits in 1051 accessions of 13 Triticum subspecies were investigated using sodium dodecyl sulfate polyacrylamide-gel electrophoresis. A total of 37 alleles were detected, resulting in 117 different allele combinations, among which 20, 68 and 29 combinations were observed in diploid, tetraploid and hexaploid wheats, respectively. Abundance and frequency of allele and combinations in tetraploid wheats were higher than these in hexaploid wheats. Allele Glu-A1c was the most frequent subunit at Glu-A1 locus in tetraploid and hexaploid wheats. Consequently, the results also suggested that the higher variations occurred at Glu-B1 locus compared to Glu-A1 and Glu-D1. Therefore, carthlicum wheat possessing the allele 1Ay could be presumed a special evolutional approach distinguished from other tetraploid species. Furthermore, this provides a convenient approach of induction of the 1Ay to common wheat through direct cross with carthlicum wheat. Alleles Glu-B1c and Glu-B1i generally absent in tetraploid wheats were also found in tetraploid wheats. Our results implied that tetraploid and hexaploid wheats were distinguished in dendrogram, whereas carthlicum and spelta wheats and however displayed the unique performance. In addition, founder effect, no-randomness of diploidization, mutation and artificial selection could cause allele distribution of HMW-GS in Triticum. All alleles of HMW-GS in Triticum could be further utilized through hybrid in the quality improvement of common wheat.