Generation and validation of unique male sex-specific sequence tagged sites (STS) marker from diverse genotypes of dioecious Jojoba-Simmondsia chinensis (Link) Schneider

DNA fingerprinting studies have been carried out with the physiologically mature male and female plants of Jojoba using 80 ISSR primers with a view to generate sex-linked markers. After bulk segregant analysis, two unique ISSR markers, viz. ISSR848₁₅₀₀ and VIS11₁₃₁₇ have been developed which can be used for determining the sex at the seedling stage. Of the eighty primers tested on the pooled male DNA and pooled female DNA samples, six ISSR primers were found to be associated with sex expression. Of the six, only two primers ISSR848 and VIS11 generated unique male sex specific bands of ~1,500 and ~1,300 bp which were consecutively present in all the male genotypes and absent in all the respective female genotypes. The remaining four primers when tried on individuals of different genotypes were confined to their sex specificity in only two female genotypes and absent in their male counterparts. One of the male-sex specific markers, VIS11₁₃₁₇ has also been cloned and sequenced which showed homology with a sex linked gene, DD44 from dioecious Silene species. Furthermore, VIS11₁₃₁₇ was converted into a male sex-specific sequence tagged sites (STS) marker of 584 bp. The male specific STS marker thus developed has been verified and validated on 100 populations of male and female individuals from ten different genotypes of Jojoba to endorse the diagnostic reliability of the STS marker. This can gainfully be employed for screening of sex at seedling stage which would be quite helpful for uprooting the undesired plants, thereby, saving resources like labor, water, fertilizers and space for highly desirable female plants.     

Validation of male sex‐specific UBC‐8071200 ISSR marker and its conversion into sequence tagged sites marker in Jojoba: a high precision oil yielding dioecious shrub

There is a recent surge in the marker‐assisted selection of desired sex type among economically important dioecious crops. Simmondsia chinensis (Jojoba), a dioecious crop is of immense agricultural importance where only the female plants are preferred for commerce. DNA fingerprinting technology, ISSR analysis along with bulk segregant analysis (BSA), has been carried out on a diverse set of 17‐ to18‐year‐old mature male and female plants of Jojoba to validate a male sex‐specific ISSR marker, UBC‐807₁₂₀₀ on larger population that comprises 330 female and 255 male plants of Jojoba. This male sex‐specific DNA fragment of ~1200 bp was cloned and sequenced. The sequence was found to be 1120 bp in length and based on the sequence information, a pair of sequence tagged sites primers was developed that amplified a single ~800 bp band, consistently only in all the male populations while no amplification was seen in their female counterparts. The marker was named as Jojoba Male Sex Marker which was further validated on 330 female plants from 22 genotypes and 255 male plants from 17 genotypes.     

Development and application of SCAR markers for sex identification in the dioecious species <Emphasis Type="Italic">Ginkgo biloba</Emphasis> L.

There is an urgent need for early sex identification to support field planting in Ginkgo biloba L., due to the different economic and medicinal values between male and female trees. An easy, rapid and reliable molecular method for sex type determination of G. biloba was reported in the paper. Random amplification of polymorphic DNA (RAPD) and sequence-characterized amplified region (SCAR) were used to search for specific molecular markers linked to the sex locus. A total of 48 primers were used for screening of specific RAPD markers in six male and three female samples. Only one primer, S10, showed different amplification band patterns associated with sex types. Then the sex-specific bands, S10-BandA and S10-BandB, were cloned and sequenced. Based on the sequences two pairs of SCAR primers, GBA and GBB, were designed. The GBA primers amplify a single 571 bp band in male samples but not in female samples, and DNA amplification using GBB primers could generate a 688 bp band only in the female individuals. Finally, the SCAR primers were used to test 16 sex-unknown samples. SCAR primers developed in this paper can be used as effective, convenient and reliable molecular markers for sex identification in G. biloba.     

Data to the sex determination in <Emphasis Type="Italic">Pistacia</Emphasis> species using molecular markers

Sex identification in Pistacia species during the long juvenile stage is an economically desirable objective. Due to the lack of morphological methods to identify sex at this stage, the application of molecular markers is expected to facilitate breeding programs. The aim of our study was to identify a marker closely linked to sex loci in Pistacia atlantica Desf subsp. mutica, P. khinjuk, and P. vera subsp. Sarakhs. Samples were collected from both male and female plants of each species, and their band patterns were analyzed according to the presence or absence of specific bands. Thirty random amplified polymorphic DNA (RAPD) primers and a pair of sequence characterized amplified region (SCAR) primers were tested as potential markers of sex in wild Pistacia species. Among the RAPD primers, only BC₁₂₀₀ was found to amplify a specific sex band present in female plants. Based on our analysis of all individual samples, a fragment of approximately 300 bp was amplified in female trees but absent in male ones. Although sex determination mechanisms in Pistacia are still unknown, they may be controlled by a single locus that acts as a trigger. The SCAR technique has proved to be a reliable technique in gender determination of pistachio genotypes at the seedling phenophase. This method could reduce both the time and costs associated with breeding programs.     

Male and female genetic linkage map of hops, Humulus lupulus

A male and female linkage map of hop has been constructed using 224 DNA polymorphisms (106 amplified fragment length polymorphisms (AFLPs), three random amplified polymorphic DNAs (RAPDs), one RAPD‐sequence‐tagged‐site (STS), and three microsatellite (STSs) segregating in an F₁ population of the English cultivar ‘Wye Target’‐the German male breeding line ‘85/54/15’. Linkage between these loci was estimated using JOINMAP Version 2.0. The final map for the female parent consisted of 110 loci assigned to eight linkage groups covering a distance of 346.7 cM. For the male map, 57 loci could be mapped on nine linkage groups spanning over 227.4 cM. One of these male linkage groups (Gr09‐M) presumably represents the Y chromosome, since all markers assigned (10 AFLPs, three RAPDs and one STS) were closely linked to the male sex (M). Because of their sex‐specific segregation, 10 doubly heterozygous AFLPs spanning a distance of 18.7 cM could be identified as markers describing the X chromosome, which is part of the male and female map. Three STMSs, which had already proved useful in hop genotyping, could be integrated as codominant locus‐specific markers and thus allowed to produce reliable allelic bridges between the female and male counterparts.     

Occurrence and frequency of putatively Y chromosome linked DNA markers in Cannabis sativa L.

DNA from female and male hemp (Cannabis sativa L.) plants belonging to nine different varieties were screened with180 RAPD primers in a search for sex-associated DNA markers. About 1500bands were produced in total, nine primers were found yielding one or two DNA bands amplified in all nine male DNA bulks and absent in all female DNA bulks. These putatively male-associated markers were then scored in three different F1progenies, deriving from a cross between a common male parent and three different female plants. The sex of the progeny was accurately scored on the basis of the floral phenotype, and the presence of the nine male-associated markers was verified by RAPD analysis. In all three progenies examined, all the male plants showed the DNA markers previously identified by bulk segregant analysis (BSA) on the hemp varieties, while all the female plants lacked them. The fact that the association between these markers and the staminate phenotype is found when examining male plants of distantly related varieties, and that such linkage is never broken when different progenies are examined, strongly supports the hypothesis that the markers found are physically located on the Y chromosome, in a region excluded from recombination during meiosis. Another marker was shown to be present in the male parent, in all the male plants of each progeny, and in 50% of the female progenies, while it was absent in the female parent; the possible occurrence of markers deriving from multiple amplification sites of the genome is discussed. This revised version was published online in August 2006 with corrections to the Cover Date.     

Identification, characterisation, and chromosome locations of rye and wheat specific ISSR and SCAR markers useful for breeding purposes

Rye (Secale cereale L. and S. strictum) offers potential to increase the genetic variability and to introduce desirable characters for wheat improvements. Cytogenetic techniques have been used to screen wheat lines containing rye chromatin. These techniques are not adequate since they are highly technical and time consuming. They are not suitable for breeding programs that require rapid screening of large numbers of genotypes. The main objective of this study was to develop and characterize ISSR and SCAR markers that can distinguish wheat from rye genome. Total DNA from wheat, rye, and triticale accessions from different provenances were amplified with ISSR primers in PCR assays. Three wheat-diagnostic sequences were identified. In addition three rye-diagnostic ISSR markers of which, one marker specifically diagnostic for Secale strictum were characterized. Pairs of primers flanking these specific sequences were designed to produce SCAR markers. Two SCAR markers were rye genome-specific. One SCAR was present in all the seven rye chromosome, and another was specific to rye chromosomes two, three, four, and seven. These newly developed ISSR and SCAR markers should be useful to wheat breeders screening genotypes that may contain rye chromatins.     

ISSR分子标记在丝瓜杂交种纯度鉴定的应用

品种纯度鉴定对种子质量的保证十分关键.为了鉴定丝瓜杂交种'农福丝瓜801'的遗传纯度,本研究利用ISSR分子标记技术对丝瓜杂交种'农福丝瓜801'及其亲本的DNA指纹进行分析,试验从100条引物中筛选出具有特异性ISSR引物3个(ISSR-820,ISSR-886,ISSR-891).结果 表明,ISSR-820为父母...     

Novel male-specific molecular markers (MADC5, MADC6) in hemp

Decamer RAPD primers were tested on dioecious and monoecious hemp cultivars to identify sex-specific molecular markers. Two primers (OPD05 and UBC354) generated specific bands in male plants. These two DNA fragments were isolated, cloned and sequenced. Both markers proved to be unique, since no sequence with significant homology to OPD05₉₆₁ and UBC354₁₅₁ markers were found in databases. These markers were named MADC3 (OPD05₉₆₁) and MADC4 (UBC354₁₅₁) (Male-Associated DNA from Cannabis sativa). The markers were converted into sequence-characterized amplified region (SCAR) markers. The SCAR markers correlated with the sex of the segregating F₂ population and proved the tight linkage to the male phenotype. Results of F₂ plant population analysis suggest these markers are to be linked to the Y chromosome. This revised version was published online in August 2006 with corrections to the Cover Date.     

Inter simple sequence repeat (ISSR) polymorphism and its application in plant breeding

Inter simple sequence repeat (ISSR)-PCR is a technique, which involvesthe use of microsatellite sequences as primers in a polymerase chainreaction to generate multilocus markers. It is a simple and quick methodthat combines most of the advantages of microsatellites (SSRs) andamplified fragment length polymorphism (AFLP) to the universality ofrandom amplified polymorphic DNA (RAPD). ISSR markers are highlypolymorphic and are useful in studies on genetic diversity, phylogeny, genetagging, genome mapping and evolutionary biology. This review providesan overview of the details of the technique and its application in geneticsand plant breeding in a wide range of crop plants.     

Identification of a SCAR marker linked to a recessive male sterile gene (Tems) and its application in breeding of marigold (Tagetes erecta)

In marigold, an F₂ segregation population of 167 plants was constructed from a cross of a line (M525A) carrying the male sterility trait × an inbred line (f53f). In line M525A, the male sterility trait was controlled by the recessive gene, Tems . The intersimple sequence repeat (ISSR) and sequence-related amplified polymorphism (SRAP) techniques combined with bulked segregant analysis were used to develop markers linked to the trait. From a survey of the 38 ISSR primers and 170 SRAP primer combinations, only one SRAP marker that was closely linked to the target trait was identified and successfully converted into sequence characterized amplified region (SCAR) marker that was located within 2.4 cM from Tems locus. The marker was validated with five other two-type lines and in each case the male fertile plants were reliably identified. This SCAR marker therefore permits the efficient marker-assisted selection of male sterile individuals in breeding programmes of marigold and will greatly facilitate the breeding of F₁ cultivars.     

ISSR and SCAR markers linked to the mungbean yellow mosaic virus (MYMV) resistance gene in blackgram [Vigna mungo (L.) Hepper]

A recombinant inbred line (RIL) mapping population (F₈) was generated by crossing Vigna mungo (cv. TU 94‐2) with Vigna mungo var. silvestris and screened for mungbean yellow mosaic virus (MYMV) resistance. The inter simple sequence repeat (ISSR) marker technique was employed to identify markers linked to the MYMV resistance gene. Of the 100 primers screened, 54 showed amplification of which 36 exhibited polymorphism between the parents TU 94‐2 (resistant) and V. mungo var. silvestris (susceptible). Individual plants from 53 RIL populations were analysed and one marker (ISSR811₁₃₅₇) was identified as tightly linked to the MYMV resistant gene at 6.8 cM. Both the phenotype as well as the ISSR811₁₃₅₇ marker segregated in a 1 : 1 ratio. The ISSR811₁₃₅₇ marker was sequenced and sequence characterized amplified region (SCAR) primers were designed (YMV1‐F and YMV1‐R) to amplify the marker. Screening for the SCAR marker in the RIL population distinguished the MYMV resistant and susceptible plants, agreeing well with the phenotypic data. The ISSR811₁₃₅₇ marker was validated using diverse blackgram genotypes differing in their MYMV reaction. The marker will be useful for the development of MYMV‐resistant genotypes in blackgram.     

Cultivar identification and genetic relationship among selected breeding lines and cultivars in chickpea (Cicer arietinum L.)

Twenty two RAPD and 22 ISSR markers were evaluated for their potential use in determination of genetic relationships in chickpea (Cicer arietinum L.) cultivars and breeding lines. We were able to identify six chickpea cultivars/breeding lines by cultivar-specific markers. All of the cultivars tested displayed a different phenotype generated either by the RAPD or ISSR primers. Though ISSR primers generated less markers than RAPD primers, the ISSR primers produced higher levels of polymorphism (% of polymorphic markers per primer) than RAPD primers. A high level of within cultivar homogeneity was observed in chickpea. Cultivars/breeding lines originating from a common genetic background showed closer genetic relationship. Chickpea lines with similar seed type(kabuli or desi) had a tendency to cluster together. This revised version was published online in August 2006 with corrections to the Cover Date.     

Inter and intra-population variability of <Emphasis Type="Italic">Jatropha curcas</Emphasis> (L.) characterized by RAPD and ISSR markers and development of population-specific SCAR markers

Jatropha curcas (Euphorbiaceae) is an oil-bearing species with multiple uses and considerable potential as a bioenergy crop. The present investigation has been undertaken to assess the extent of genetic diversity in a representative set of 42 accessions of J. curcas encompassing different crop growing regions in India along with a non-toxic genotype from Mexico as a prelude for utilization of promising and genetically divergent materials in the breeding programmes. Molecular polymorphism was 42.0% with 400 RAPD primers and 33.5% with 100 ISSR primers between accessions indicating modest levels of genetic variation in the Indian germplasm. The within-population variation based on RAPD polymorphism was 64.0% and was on par with the inter-population variation. Polymorphic ISSR markers have been identified that could differentiate the Indian accessions from the Mexican genotype and two of them were converted to SCAR markers. The SCAR primer pair ISPJ1 amplified a 543 bp fragment in all the Indian populations, while ISPJ2 with a specific amplicon of 1,096 bp was specific to the Mexican genotype. Population-specific bands have been identified for the accession from Kerala (2 RAPD markers), Neemuch-1 from Rajasthan (1 each of RAPD and ISSR markers) and the non-toxic genotype from Mexico (17 RAPD and 4 ISSR markers), which serve as diagnostic markers in genotyping. The study indicates an immediate need for widening the genetic base of J. curcas germplasm through introduction of accessions with broader geographical background.     

Inter simple sequence repeat analysis of genetic relationships in the genus Vigna

The utility of inter simple sequence repeat (ISSR) DNA polymorphisms to distinguish taxa within the genus Vignawas investigated. Nineteen primers, most containing either aGA or CA repeat, generated amplification products that differed among the taxa examined. The ISSR polymorphisms produced by 15 of these primers were very effective for distinguishing taxa at the species level or below. The Vigna unguiculataaccessions analyzed formed a cohesive group and appeared to be most closely related to V. triphylla and V. reticulata.In contrast, ISSR analysis was not able to clearly differentiate subgeneric divisions within Vigna. We attribute this loss of resolution at the subgeneric level to the high rate of evolution of the sequences we examined. Several probable instances of misclassification or hybrid origin of an accession were identified.     

Assessment of somaclonal variability in hop (Humulus lupulus L.) in vitro meristem cultures and clones by molecular methods

In vitro meristem tissue cultures are used for production of virus-free rootstocks of hop (Humulus lupulus L.). Because use of plant tissue cultures is associated with occurrence of somaclonal variability, we assessed somaclonal variability in hop meristem in vitro cultures before and after thermotherapy by different molecular methods (RFLP, RAPD, STS, ISSR and AFLP) and compared it with existing clonal variability of Osvald's clones 31, 72 and 114. No molecular differences were observed between mother plants and in vitro mericlones by RFLP and STS analyses. Amplified molecular differences were found in RAPD and ISSR products of one from five in vitromericlones cvs. Eroica (E5) and Southern Brewer (SB2), respectively. Similarities with mother plants were 0.965 and 0.913 (JSC), respectively. Specific amplified polymorphic products were found for every mericlone and mother plant in AFLP reactions and variability of DNA sequence ranged from 0.824 to 0.993 (JSC). This variability was very similar to determined intra-clonal variability within Osvald's clones 31, 72 and 114 by AFLP analysis. Inter-clonal variability of DNA sequence was exactly higher than intra-clonal variability of DNA sequence in these clones. The molecular differences between Osvald's clone 72 normal and meristem derived were not verifiable. Thermotherapy increased frequency of molecular changes, since amplified differences were found in 14 from 20 in vitro mericlones of cv. Eroica, in 6 from 11 in vitro mericlones of cv. Yeoman and in 15 from 23 in vitro mericlones of cv. Southern Brewer by RAPD and ISSR analyses.     

Molecular evaluation of genetic variability in wild populations of mulberry (Morus serrata Roxb.)

Sixteen populations of the wild mulberry, Morus serrata Roxb., were analysed for their genetic diversity with the aim of using them in introgressive breeding programmes with cultivated relatives. Five genets from each population were collected from different natural populations of M. serrata present in Uttaranchal and Himachal Pradesh in India, and diversity of morpho‐anatomical traits and inter‐simple sequence repeat (ISSR) markers were studied. Significant amounts of genetic diversity were observed among these populations for morpho‐anatomical as well as DNA markers. The 17 ISSR primers generated a total of 95 DNA markers, 51 of which were polymorphic, revealing 67% polymorphism among the populations. The pair‐wise genetic distance, estimated from these DNA markers varied from 0.091 between Urgam‐3 and Kathpuria to 0.258 between Dakrakao‐1 and Dunda with an average genetic distance of 0.165. Clustering analysis grouped these 16 populations into three broad groups. The grouping showed a moderate correlation with the geographical distances. Based on the morphological traits and molecular genetic variability, plants of Urgam‐1, Bhowali farm, Nainitikar, Dunda or Korwa‐2 can be selected for breeding and conservation programmes.     

Genetic diversity,structure and fruit trait associations in Greek sweet cherry cultivars using microsatellite based (SSR/ISSR) and morpho-physiological markers

It is important to couple phenotypic analysis with genetic diversity for germplasm conservation in gene bank collections. The use of molecular markers supports the study of genetic marker-trait associations of biological and agronomic interest on diverse genetic material. In this report, 19 Greek traditional sweet cherry cultivars and two international cultivars, which were used as controls, were grown in Greece and characterized for 17 morpho-physiological traits, 15 simple sequence repeat (SSR) loci and 10 inter simple sequence repeat (ISSR) markers. To our knowledge, this is the first report on molecular genetic diversity studies in sweet cherry in Greece. Principal component analysis (PCA) of nine qualitative and eight quantitative morphological parameters explain over 77.33% of total variability in the first five axes. The SSR markers yielded a combined matching probability ratio (MPR) of 9.569 × e−12. The 15 SSR loci produced a total of 92 alleles. Ten ISSR primers generated 91 bands, with an average of 9.1 bands per primer. Expected heterozygosity (gene diversity) values of 15 SSR loci and 10 ISSR markers averaged at 0.683 and 0.369, respectively. Based on stepwise multiple regression analysis (MRA), SSR alleles were found associated with harvest time and fruit polar diameter. Furthermore, three ISSR markers were correlated with fruit harvest and soluble solids and four ISSR markers were correlated with fruit skin color. Stepwise MRA identified six SSR alleles associated with harvest time with a high correlation (P < 0.001), with linear associations with high F values. Hence, data analyzed by the use of MRA could be useful in marker-assisted breeding programs when no other genetic information is available.     

Application of AFLP for the detection of sex-specific markers in hemp

Two dioecious hemp accessions (Can18 and Can17) were tested by bulked segregant analysis for polymorphisms between male and female bulks with amplified fragment length polymorphisms. Thirty‐nine primer combinations were tested and 20 of these yielded one to three male‐specific bands. In contrast, no female‐specific band was detected. Eight of these primer combinations were used for testing 80 progeny plants from a cross between two plants from Can18 and 30 plants from Can17. A total of 16 and 17 male‐specific fragments were obtained for Can 18 and Can 17, respectively. Eleven fragments exhibited the same fragment size in both accessions. All male plants, but not one female plant, showed the respective polymorphic band with each of the eight primer combinations. Problems regarding sex determination under field conditions were successfully overcome by testing plants that had been grown in small pots in a greenhouse. The abundant number of potential markers for the male sex, their complete cosegregation with male plants and the absence of markers for the female sex support the presence of a male sex chromosome in hemp.     

A SCAR marker for the sex types determination in Colombian genotypes of Carica papaya

Sex type determination in papaya (Carica papaya L.) is very important for crop improvement processes because it accelerates the identification of the fruitful plants. The use of molecular technology provides a quick and reliable identification of sex types in plantlets growing in seedbeds. Random amplified polymorphic DNA (RAPD) markers were used to determine the sex types of Colombian cultivars of dioecious papaya genotypes. This species has three sex types (male, female and hermaphrodite) determined by a multiallelic locus. There are no morphological differences at the chromosome level; therefore the identification of sex types by chromosomal dimorphism is not possible. A RAPD marker of 900 bp was found in male plants, but not in females or hermaphrodites. From this RAPD marker a sequence characterized amplified region (SCAR) was developed and it was possible to amplify fragments from the genomes of male and hermaphrodite plants, but not the female ones. The results indicate that this new SCAR marker will be valuable to determine the sex type of papaya plants.