RAPD-analysis of corn somaclones

The genetic difference between maize line A188 and A188-derived somaclones was assessed via analysis of randomly amplified polymorphic DNA (RAPD). In total, 15 out of 17 decanucleotide primers used each allowed amplification of 2-17 fragments ranging 200-2000 bp. The RAPD patterns did not differ between individual plants of line A188, which demonstrated again its high genetic homogeneity. The difference between the initial line and the somaclones was high, ranging 64-74%. On evidence of the genetic divergence, the somaclones formed two clusters. The distribution of somaclones between these clusters was consistent with their origin.     

Analysis of Specific RAPD and ISSR Fragments in Maize (Zea mays L.) Somaclones and Development of SCAR Markers on Their Basis

RAPD (Random Amplified Polymorphic DNA) and ISSR (Inter Simple Sequence Repeats) markers were used to analyse the genetic divergence between the regenerated plants derived from callus cultures and the original maize line A188. Analysis of polymorphism by using 38 RAPD- and 10 ISSR-oligonucleotide primers showed that the differences between eight examined somaclones and the original line ranged from 6.5 to 23%. As confirmed using new primers, the regenerants derived from callus cultures grouped into two clusters according to their origin. The regenerants isolated from calluses grown for eight months differed from one another and the original line to a larger extent than the regenerants obtained from two-month callus cultures. In some somaclones, molecular marking of the regenerants revealed specific RAPD and ISSR fragments that were absent in other somaclones or the original maize line. On the basis of six specific fragments (five RAPD and one ISSR), SCAR (Sequence Characterized Amplified Region) markers were developed. Specific polymorphism revealed with random primers was completely confirmed using five SCAR markers. Polymorphism of one SCAR marker differed from that revealed with random primers. Five SCAR fragments were inherited as simple dominant traits. One SCAR fragment displayed codominant inheritance.     

Analysis of specific RAPD- and ISSR-fragments in somaclonal maize (Zea mays L.) and development of SCAR markers based on them

RAPD (Random Amplified Polymorphic DNA) and ISSR (Inter Simple Sequence Repeats) markers were used to analyse the genetic divergence between the regenerated plants derived from callus cultures and the original maize line A188. Analysis of polymorphism by using 38 RAPD- and 10 ISSR-oligonucleotide primers showed that the differences between eight examined somaclones and the original line ranged from 6.5 to 23%. As confirmed using new primers, the regenerants derived from callus cultures grouped into two clusters according to their origin. The regenerants isolated from calluses grown for eight months differed from one another and the original line to a larger extent than the regenerants obtained from two-month callus cultures. In some somaclones, molecular marking of the regenerants revealed specific RAPD and ISSR fragments that were absent in other somaclones or the original maize line. On the basis of six specific fragments (five RAPD and one ISSR), SCAR (Sequence Characterized Amplified Region) markers were developed. Specific polymorphism revealed with random primers was completely confirmed using five SCAR markers. Polymorphism of one SCAR marker differed from that revealed with random primers. Five SCAR fragments were inherited as simple dominant traits. One SCAR fragment displayed codominant inheritance.     

Studies on somaclonal variation in Phalaenopsis

The morphological and genetic variations in somaclones of Phalaenopsis True Lady “B79-19” derived from tissue culture were evaluated. In 1360 flowering somaclones, no apparent difference was found in the shape of the leaves, whereas flowers in some somaclones were deformed. We have demonstrated that 38 selected random primers can be used to generate amplified segments of genomic DNA and to differentiate polymorphisms of somaclonal variations in Phalaenopsis. The random amplified polymorphic DNA (RAPD) data indicated that normal and variant somaclones are not genetically identical. We also studied the banding patterns of aspartate aminotransferase (AAT) and phosphoglucomutase (PGM) in young leaves of variant and normal somaclones of Phalaenopsis. With respect to AAT, three distinct banding patterns were found in normal somaclones and only two-banded phenotypes were detected in variant somaclones. In a comparison of the banding patterns of PGM isozymes, three to four bands were detected in normal somaclones and two to three bands in variant ones. Received: 15 August 1997 / Revision received: 16 February 1998 / Accepted: 1 May 1998     

Genetic Analysis and Estimation of Genetic Diversity in East-European Breeds of Windhounds (Canis familiaris L.) Based on the Data of Genomic Studies Using RAPD Markers

The method of polymerase chain reaction with a set of arbitrary primers (RAPD–PCR) was used to describe genetic variation and to estimate genetic diversity in East-European windhounds, Russian Borzoi and Russian Chortai. For comparison, windhounds of two West-European breeds (Whippet and Greyhound) and single dogs of other breed types (shepherd, terriers, mastiffs, and bird dogs) were examined. For all dog groups, their closest related species, the wolf Canis lupus, was used as an outgroup. Variation of RAPD markers was studied at several hierarchic levels: intra- and interfamily (for individual families of Russian Psovyi and Chortai windhounds), intra- and interbreed (for ten dog breeds), and interspecific (C. familiaris–C. lupus). In total, 57 dogs and 4 wolves were studied. Using RAPD–PCR with three primers, 93 DNA fragments with a length of 150–1500 bp were detected in several Windhound families with known filiation. These fragments were found to be inherited as dominant markers and to be applicable for estimation of genetic differences between parents and their offspring and for comparison of individuals and families with different level of inbreeding. A high level of intra- and interbreed diversity was found in Russian Borzoi and Russian Chortai. In these dogs, genetic similarity indices varied in a range of 72.2 to 93.4% (parents–offspring) and 68.0 to 94.5 (sibs). Based on the patterns of RAPD markers obtained using six primers, a dendrogram of genetic similarity between the wolf and different dog breeds was constructed, and indices of intragroup diversity were calculated. All studied breeds grouped into two clusters, windhounds (Borzoi-like dogs) and other dog breeds. Russian windhounds represent a very heterogeneous group, in which the Russian Borzoi is closer to Greyhound than the Russian Chortai. All studied wolves constituted a separate cluster. Significant differences were found between the wolf and dogs by the number of RAPD markers (92.8 and 86.1, respectively) and by the indices of genetic diversity (54.3 and 64.8%, respectively). The reason for the high intraspecific variation of dogs (including Russian windhounds) and the prospects of using the studied group of markers for genetic analysis and differentiation in C. familiaris are discussed.     

Genetic integrity of somaclonal variants in tea (Camellia sinensis (L.) O Kuntze) as revealed by inter simple sequence repeats

Adoption of inter simple sequence repeats (ISSR) technique to analyze the genetic variability of somatic embryo derived tea plants was evaluated. Morphological characterisation of the field grown plants revealed no identical character aligning with the parent, UPASI-10. Out of 40 primers, 15 exhibited concurrent polymorphism were selected for the study. Genetic variability of somaclones derived from single line cotyledonary culture ranged from 33.0 to 55.0%. A unique fragment of 1.2Kb was visible in majority of the accessions whereas the fragments below the length of 0.6Kb were noticed only in 50% of the variants. Out of 120 interactions attempted using Pearson's coefficient correlation, only 9.2% of somaclones exhibited significant similarity at genetic level. Dendrogram constructed based on simple matching coefficient revealed a distance of 2.257-3.317 between the final clusters. This strengthens the existence of wide genetic variation among the somaclones.     

Low Genetic Differentiation of and Close Evolutionary Relationships between Anas platyrhynchos and Anas poecilorhyncha: RAPD–PCR Evidence

Using RAPD–PCR, we examined genetic diversity and phylogenetic relationships in two groups of river ducks: Anas platyrhynchos, A. poecilorhyncha, A. streperaand A. crecca, A. formosa, A. querquedula. Molecular taxon-specific markers were found for teals (A. crecca, A. formosa, A. querquedula) and gadwall (A. strepera). Each of the species examined was shown to exhibit high genetic diversity. The mean levels of intraspecific genetic polymorphism in the groups of mallards (P = 77%) and teals (P = 74.5%) were approximately equal whereas the mean interspecific genetic distances in teals were significantly higher than in mallards (D = 0.432 and D= 0.336, respectively). The levels of interspecific genetic differentiation in the species groups were also different. The genetic distances between the teal species and between gadwall and mallards were equal to 0.668–0.971 while the genetic distance between mallard A. platyrhynchos and spot-billed duck A. poecilorhyncha was 0.401, which slightly exceeds the intraspecific values for mallards (0.356–0.377). The RAPD patterns for this species pair showed high variability and a lack of fixed differences. This was adequately reflected on both intra- and interspecific differences and on phylogenetic constructions in which the morphological species did not form their own clusters but were intermixed. In contrast to mallards, the other species, which showed high genetic variability, were reliably separated in phenogenetic and phylogenetic reconstructions. The possible explanations of the low genetic differentiation of A. platyrhynchos and A. poecilorhynchaare discussed.     

Encephalitogenicity of Murine,But Not Bovine,DM20 in SJL Mice Is Due to a Single Amino Acid Difference in the Immunodominant Encephalitogenic Epitope

Myelin proteolipid protein (PLP) contains 2 immunodominant encephalitogenic epitopes in SJL mice, namely PLP residues 139–151 and 178–191. DM20, a minor isoform of PLP, lacks residues 116–150 and consequently contains only the single major encephalitogenic epitope 178–191. However, it has been found previously that bovine DM20 is not encephalitogenic in SJL mice. Since residue 188 within peptide 178–191 is phenylalanine (F) in murine DM20 and alanine (A) in bovine DM20, we tested the effect of this difference on the immune responses and induction of EAE. SJL mice were immunized with either highly purified murine or bovine DM20. Residues 178–191 were found to be immunodominant for each, but only murine and not bovine DM20 was encephalitogenic. A synthetic peptide corresponding to the murine 178–191 sequence (F188) was also encephalitogenic, whereas the peptide corresponding to the bovine sequence (A 188) was not. Both F188 and A188 bind with high affinity to I-A^s and both are recognized by the SJL T cell repertoire. A188-specific T cell lines reacted to both A188 and F188, but F188-specific T cell lines were not stimulated by A188. F188-specific T cell lines produced mRNA for the Thl cytokines IL2 and IFN, and, in passive transfer experiments, were encephalitogenic upon stimulation with F188, but not A188. In contrast, A188-specific T cell lines produced mRNA for IL4, IL5 and IL10, in addition to IL2 and IFN, and were not encephalitogenic after stimulation with either F188 or A188. Cotransfer of A188-specific T cell lines with F188-specific T cell lines resulted in protection from EAE. Thus, A188 induces a functionally different phenotype of T cells from that induced by F188. Taken together these data suggest that the failure of bovine DM20 to induce EAE may be attributable to induction of protective rather than pathogenic T cells by the immunodominant epitope.     

DNA Polymorphism among Rice Somaclones

Molecular markers were used to detect the influence of high concentrations of 2,4 dichlorophenoxyacetic acid (2,4-D) in the callusing media on DNA variations in regenerated rice plants. Restriction fragment length polymorphism (RFLP), random amplified polymorphic DNA (RAPD) and polymerase chain reaction (PCR) based RFLP analysis were carried out on 12 somaclones of Oryza sativa L. cv. B-370. In vitro culture induced DNA variations were detected in the regenerated plants but the effect of high auxin concentration in the medium could not be revealed. In a second study, fingerprinting of 15 semi-dwarf, high yielding somaclones of B-370 was carried out using RAPD technique. Amplification using 20 random primers produced a total of 167 DNA bands out of which 97 bands were polymorphic. A total of 32 unique DNA bands were detected across all the somaclones and they could be grouped based on their similarity to B-370. RAPD analysis helped to reveal similarity or differences among the somaclones while fingerprinting using additional RAPD markers was not successful.     

Characterization of genetic diversity of some serovars of Bacillus thuringiensis by RAPD

RAPD based fingerprinting of 21 serovars of Bacillus thuringiensis (Bt) representing different serotypes was performed using 19 random decamer primers. A total of 172 polymorphic fragments, ranging in size from 161-2789 bp, were amplified from 13 of the 19 primers. Pairwise genetic similarity analysis revealed very low similarity values, ranging from 3-68%, among the serovars of Bt, indicating high genetic divergence. Nineteen serovars of Bt fell in two major clusters and remaining two formed solitary clusters in the dendogram. Clustering of Bt strains established genetic relatedness between serovars and serotypes. It has been suggested that RAPD analysis can be used for genotypic characterization of Bt to complement flagellar serotyping.     

Analysis of molecular genetic diversity in a representative collection of foxtail millet [Setaria italica (L.) P. Beauv.] from different agro-ecological regions of India

Foxtail millet [Setaria italica (L.) P. Beauv.], an important crop of East Asia is known for its drought tolerance and was once an indispensible crop of vast rainfed areas in semi-arid regions in India. In India it is cultivated in Andhra Pradesh, Karnataka, Maharashtra, Tamil Nadu, Rajasthan, Madhya Pradesh, Uttar Pradesh and north eastern states. The grain finds use in several local recipes such as roti (bread), jaula, singal, sirol. Foxtail millet grain contains 12.3 % protein, 4.7 % fat, 60.6 % carbohydrates, and 3.2 % ash. The present study was conducted to analyse the genetic diversity among foxtail accessions from different states of India and a few exotic accessions using RAPD and ISSR techniques and identify diverse accessions for use in variety improvement programmes. A set of 125 foxtail millet accessions selected from 11 different agro-ecological regions of India were analyzed using random amplified polymorphic DNA (RAPD) and inter simple sequence repeat (ISSR) marker techniques. A total of 146 (115 RAPD and 31 ISSR) scoreable markers were generated with 16 RAPD and four ISSR primers. The dendrogram generated using Nei’s genetic distances and principal component analyses revealed presence of two clusters and two subclusters in group I. The accessions from Andhra Pradesh, Karnataka, Maharashtra and Uttarakhand were more diverse since they were distributed in both the clusters. There was no clear geographical differentiation observable. The bootstrap support for the major groups identified was strong (above 80 %) indicating good statistical support. The average value of Nei and Li’s genetic distance was lowest (0.081) for accessions from West Bengal while the collections from Karnataka showed highest dissimilarity (average genetic distance = 0.239). The average genetic distance for all 125 accessions together was 0.177 indicating presence of only moderate genetic diversity in the collections. The analysis of molecular variance indicated that only 2.76 % variation was explained by variations among the groups and 11.55 % among populations within groups. However the percentage of variation observed within populations was high (85.68). The value of Fst was observed to be very low (0.028) indicating low differentiation of the accessions analysed. The population genetic analysis carried out indicates that highest number of alleles per locus (1.745 ± 0.438) was observed for Andhra Pradesh with 35 accessions. When four eco-geographic regions were considered, the southern region comprising AP, Karnataka and TN showed the highest number of alleles per locus (1.787 ± 0.411). The value of Gst was lowest for south (0.123) and highest for central west (0.455). This indicated that all the landraces from south share common alleles. The gene flow between the accessions from different regions was also observed to be high with the highest migration (3.557) recorded for south.     

RAPD Analysis of Lathyrus sativus Somaclones

RAPD patterns were studied in seven somaclones of Lathyrus sativus having contrasting characteristics alongwith the parent cultivar P-24. Out of 81 decamer random primers used, 5 did not amplify and 24 revealed DNA polymorphism while the rest generated monomorphic banding patterns. Eight unique bands were amplified with different primers in four different somaclones. With most of the informative primers differences were observed between somaclones and also between some of the somaclones and parent cultivar P-24. More than 90% similarity in the RAPD patterns was evident among the somaclones and the parent cultivar P-24. Though it was not possible to identify a particular somaclone with a single primer, a combination of two or more primers could be employed to identify a somaclone.     

DNA amplification fingerprinting as a tool for checking genetic purity of strains in the cyanobacterial inoculum

Summary The electrophoretic patterns for 17 different cyanobacterial cultures derived from 6 different decamer primers were analysed to provide diagnostic fingerprints for each culture and their genetic distances based on RAPD markers.The primer OPB 09 produced a maximum of 24 amplified products. The primers OPB 09, OPG 04 and OPAH 02 generated markers specific for Nostoc cultures. Westiellopsis was found to be distinct from other cyanobacterial cultures in the RAPD profile obtained with the primer OPAH 02. The primer OPF 03 generated specific markers for Tolypothrix tenuis. Fischerella cultures could be identified with the primers OPB 09, OPAG 03 and OPF 05. The study revealed that these RAPD markers could be further used to identify and establish the genetic purity of the strains in the cyanobacterial inoculum. There was a similarity of 60–90% within Westiellopsis cultures. Nostoc cultures shared 50–80% similarity with Westiellopsis cultures. Anabaenacultures were similar to Westiellopsiscultures by 60–70. The markers produced for each culture were also applied to phylogenetic analysis to infer genetic relatedness in this group of prokaryotes. The dendrogram analysis clearly revealed that free-living cyanobacterial cultures are closely related to each other and are distinct from the symbiotic forms.     

Biological and molecular variability of Sarocladium oryzae, the sheath rot pathogen of rice (Oryza sativa L.)

Sheath rot disease of rice caused by Sarocladium oryzae (Sawada) (=Acrocylindrium oryzae, Sawada) has become an important production constraint in all rice-growing countries. Pathogenicity, phytotoxic metabolites, and random amplified polymorphic DNA (RAPD) markers were used to assess the level of genetic variability of S. oryzae derived from rice cultivars, CR1018, IR36, and IR50, of different locations in North East and South India. Variability in pathogenicity, phytotoxic metabolite production, and DNA polymorphisms was detected among S. oryzae isolates. Results indicated that S. oryzae isolates produced both cerulenin and helvolic acid at concentrations 0.3–0.62 and 0.9–4.8 μg mL⁻¹ of culture filtrate, respectively. Isolates that produce higher concentration of helvolic acid induced a high percent incidence of sheath rot disease. Oligonucleotide primers, GF and MR, generated either a simple (up to 2 bands) or complex (up to 6 bands) RAPD pattern. According to their level of similarity, S. oryzae isolates from North East and South India were grouped separately into two major clusters and 13 genotypes. Molecular- and pathogenicity-based classifications were not correlated, but a high level of genetic variability within S. oryzae isolates was identified. The molecular variability of S. oryzae isolates will be an important consideration in breeding programs to develop durable resistance for sheath rot disease.     

In vitro screening of rice genotypes for drought tolerance using polyethylene glycol

The aim of the present investigation was to study in vitro somatic embryogenesis and to screen calli for drought tolerance using mature embryos as explants. Mature embryos of three aromatic (Pusa Basmati 1, Pant Sugandh Dhan 17, Taraori Basmati) and one non-aromatic (Narendra 359) indica rice (Oryza sativa L.) varieties were used for developing callus on Murashige and Skoog medium supplemented with 2, 4-dichlorophenoxy acetic acid (2, 4-D) (2.0 mg l⁻¹ for Narendra 359 and 2.5 mg l⁻¹ for Pusa Basmati 1, Taraori Basmati and Pant Sugandh Dhan 17). Screening of calli was done by sub-culturing calli for 15 days on Murashige and Skoog (MS) basal medium supplemented with different concentrations of polyethylene glycol (PEG)-6000 as chemical drought inducer. Callus volume decreased and total proline content was found to be increased significantly with increase in PEG concentration. Narendra 359 showed best response in terms of callus growth at 70 g l⁻¹ of PEG. The highest percentage somatic embryogenesis among selected calli was observed in Pusa Basmati 1 and the lowest in Pant Sugandh Dhan 17. Excellent shooting and rooting (94%) was observed in MS + 0.1 mg l⁻¹ naphthalene acetic acid (NAA) and MS + 2.0 mg l⁻¹ 2, 4-D. Regenerated plants were successfully acclimatized with 98% efficiency in greenhouse and grown under pot conditions up to maturity. It was observed that PEG treated somaclones accumulated more proline, chlorophyll content and developed more tiller and height than normal somaclones. Ten random amplified polymorphic DNA (RAPD) primers were used to amplify genomic DNA of somaclones of different varieties. Level of genetic polymorphism existing among these somaclones indicates that these markers can be used in breeding program for improving varieties through in vitro techniques.     

RAPD analysis of blast resistant somaclones from upland rice cultivar IAC 47 for genetic divergence

Seventeen somaclones of upland rice cultivar IAC 47 showing different plant types, and either resistance or susceptibility to leaf blast, were utilized for random amplified polymorphic DNA (RAPD) analysis. Somaclones exhibited differences in reaction to isolates of Pyricularia grisea. Two somaclones (SC02 and SC04) were resistant to all three field isolates of somaclones, while the cultivar IAC 47 was susceptible. The inheritance study of two distinct plant types, one with erect bright green leaves and the other with droopy yellow green leaves, showed that a single possibly different, dominant gene governs each plant type. Of 32 random decamer primers utilized, OPA02 and OPD02 detected polymorphisms between somaclones showing erect bright green leaves and droopy yellow green leaves. Reliable grouping exhibiting 80% similarity was achieved with 17 primers. Leaf blast resistance to race IC-2 of P. grisea was associated with the plant type of erect bright green leaves.     

Genetic Variation in Captive Koalas (Phascolarctos cinereus): Parentage Determination and Individual Identification

Highly repeatable randomly amplified polymorphicDNA (RAPD) markers were developed for parentage studiesin the koala (Phascolarctos cinereus). Of the 25 RAPDprimers screened, 5 (20.0%) produced 32 repeatable polymorphic RAPD bands (average/primer = 6.4± 4.2). A high level of polymorphism was observedfor each group of koalas (Featherdale, 71.9%; Lone Pine,84.4%). All 25 koalas could be uniquely identified using either RAPD or microsatellite markers. Of the32 RAPD markers generated in koalas, 25 were informativefor parentage analyses. These RAPD markers successfullydetermined both parents to three offspring and a male parent to a fourth offspring.Paternity analysis (where the female parent is known)succeeded in assigning the correct male parent to sevenoffspring. Our RAPD–PCR method generatesinformative genetic markers that are useful for parentagedetermination and individual identification of captivekoalas. This would provide genetic analysis to zoos andwildlife parks as a low-cost alternative to the more expensive microsatellite markers.     

Genetic diversity among Turkish local grape accessions (Vitis vinifera L.) using RAPD markers

To estimate genetic relationships among 46 local grape cultivars, RAPD analysis was performed with 25 decamer primers selected from a total of 60 primers. Genetic relationships among these cultivars were determined by calculating similarity indexes, from which a dendogram was derived. There was high genetic variation among the cultivars, with values of genetic diversity ranging from 0.553 to 0.952 using the Jaccard coefficient. UPGMA analysis of a distance matrix produced a dendogram with six clusters. The relatively high genetic similarity ratios observed for the cultivars was also reflected in the dendogram. In general, no relationship was encountered between the genetic similarity ratios of the cultivars and the results of previous ampelographic analyses.     

Identification and mapping of polymorphic RAPD markers of pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.) genome

Various pea cultivars, lines, and mutants were studied by the RAPD method. Polymorphic fragments characteristic of certain pea genotypes and which can be used for identifying genotypes were detected. Inheritance of some polymorphic RAPD fragments was studied. Mendelian inheritance of these fragments was shown. By analyzing the data obtained in studies of RAPD polymorphism, genetic distances between different pea cultivars, lines, and mutants were calculated and a genealogic dendogram showing a varying extent of differences between RAPD patterns was constructed. Ten new RAPD markers linked to various pea genes were detected. Genetic distances between RAPD markers and genes to which they are linked were calculated, and the respective disposition of RAPD markers on chromosomes was established.Translated from Genetika, Vol. 41, No. 3, 2005, pp. 341–348.Original Russian Text Copyright © 2005 by Koveza, Kokaeva, Konovalov, Gostimsky.     

Genetic Differentiation of Pedunculate Oak Quercus robur L. in the European Part of Russia Based on RAPD Markers

Using randomly amplified polymorphic DNA markers (RAPD), genetic variation and differentiation in four populations of pedunculate oak Quercus robur L. were examined. The populations occupy a large part of the Quercus robur range in the European Russia (Voronezh and Novgorod oblasts; Republics of Mordovia and Bashkortostan). With each of six random primers (A02, A09, A17, B01, B08, B11), 96 DNA samples were analyzed by PCR. In all, 48 putative polymorphic RAPD loci were detected. We failed to reveal population-specific DNA fragments for any primer although the frequencies of 14 fragments were significantly different among populations. The oak populations studied exhibited high variability: 73–90% of genes were polymorphic and the effective allele number was about 1.4. The total genetic variation varied from 0.202 (Vor) to 0.245 (Nov), which corresponded to the estimates for populations of this species from Central and Western Europe. The populations examined showed low among-population differentiation (G _ST = 0.098); gene flow N _e m was 4.61. The proportion of among-population variation of the RAPD loci studied accounted for 7% of the total variability; more than 93% of the total variability was explained by individual and within-population variation.