M. Parani

Generation and analysis of expressed sequence tags from the salt-tolerant mangrove species Avicennia marina (Forsk) Vierh.

Salinization poses an increasingly serious problem in coastal and agricultural areas with negative effects on plant productivity and yield. Avicennia marina is a pantropical mangrove species that can survive in highly saline conditions. As a first step towards the characterization of genes that contribute to combating salinity stress, the construction of a cDNA library of A. marina genes is reported here. Random expressed sequence tag (EST) sequencing of 1,841 clones produced 1,602 quality reads. These clones were classified into functional categories, and blast comparisons revealed that 113 clones were homologous to genes earlier implicated in stress responses, of which the dehydrins are the most predominant in this category. Of the ESTs analyzed, 30% showed homology to previously uncharacterized genes in the public plant databases. Of these 30%, 52 clones were selected for reverse Northern analysis: 26 were shown to be up-regulated and five shown to be down-regulated. The results obtained by reverse Northern analysis were confirmed by Northern analysis for three clones.

MOLECULAR PHYLOGENY OF MANGROVES IX: Molecular marker assisted intra-specific variation and species relationships in the Indian mangrove tribe Rhizophoreae

Molecular phylogeny and genetic diversity in all the nine species (Rhizophora mucronata, R. apiculata, R. stylosa, Bruguira cylindrical, B. parviflora, B. gymnorriza, Ceriops tagal and C. decandra) and a natural Rhizophora hybrid, of the mangrove Rhizophoraceae, occurring in the Indian sub-continent were analysed using random amplified polymorphic DNA (RAPD), restriction fragment length polymorphism (RFLP) and RFLP of polymerase chain reaction amplified chloroplast genes (PCR-RFLP) as markers. Intra-specific variability as revealed by RAPDs were low in all the analysed species. Inter-specific RFLP analysis revealed species-specific profiles in some probe-enzyme combinations. The rDNA repeat units, as flanked by the Hind III restriction sites was found to be very conserved within each genus and three different rDNA repeat units were observed among the four genera. Generic differences in PCR-RFLP were observed only in rbcL and trnS-psbC gene regions. Species differences were observed in Rhizophora in the PCR-RFLP of trnS-psbC and trnL-UAA with Hae III and Taq I, respectively. Rhizophora mucronata was found to be the chloroplast donor for the natural inter-specific hybrid. A dendrogram based on the data sets from all the three marker systems revealed that the four genera segregated into three species groups.

Molecular phylogeny of mangroves I. Use of molecular markers in assessing the intraspecific genetic variability in the mangrove species Acanthus ilicifolius Linn. (Acanthaceae)

Abstract Mangroves, the intertidal ecosystems occurring primarily in the tropical regions of the world, are valuable natural resources with high productivity and unique habitat value. However, the genetic structure of plant species within the mangrove ecosystem is poorly understood. The present communication is the first report on the use of molecular markers in assessing intra-site and intra-specific polymorphism in one of the mangrove species, Acanthus ilicifolius, for identifying/ detecting distinct genotypes for long-term conservation. Random amplified polymorphic DNAs (RAPDs) and restriction fragment length polymorphisms (RFLPs) were used to elucidate the intra- and inter-population variability in this widely distributed mangrove species. In all, 48 genotypes representing eight distinct populations were analysed. A low level of polymorphism was detected at the intra-population level through both RAPD (3.8–7.3%) and RFLP (3.2–9.1%) analyses. At the inter-population level, 25 of the 73 RAPD loci (34%) detected through the use of 13 random primers and 44 of the 96 RFLP loci (45.8%) revealed through 15 probe/enzyme combinations were polymorphic. RFLP analyses were carried out using genomic clones developed from the same species. The somatic cells of the species displayed 48 chromosomes, with no numerical changes at either intra- or inter- population levels.

Molecular phylogeny of mangroves VII. PCR-RFLP of trnS-psbC and rbcL gene regions in 24 mangrove and mangrove-associate species.

Abstract Chloroplast DNA (cpDNA) regions, trnS-psbC and rbcL, from 120 individuals of 24 mangrove and mangrove associate species belonging to 11 orders, 13 families and 17 genera of Angiospermae were amplified by the polymerase chain reaction (PCR) and restriction-digested with HaeIII. Analysis of polymorphism in the restriction fragments (PCR-RFLP) revealed 18 classes of restriction banding pattern in trnS-psbC region. This has provided molecular evidence for diversity in the mangrove floral component at the above-species level. Intra-generic variations were observed in three genera, viz. Rhizophora, Avicennia and Suaeda. Species-specific restriction patterns were found in the genera Rhizophora and Suaeda. A natural hybrid belonging to the genus Rhizophora was also analysed, and its restriction pattern was the same as that of a putative parental species.PCR-RFLP analysis of rbcL gene region was less differentiating. However, it showed 13 different classes of restriction patterns and revealed the usefulness of these investigations for genome analysis at a higher taxonomic level. Intra-specific variation was not observed in any of the species in either of the cpDNA regions analysed. This is the first report which describes variations in the chloroplast genome of mangrove species.

Molecular Phylogeny of mangroves III Parentage analysis of a Rhizophora hybrid using random amplified polymorphic DNA and restriction fragment length polymorphism markers

Abstract In this study, random amplified polymorphic DNA (RAPD) markers of genomic DNA and restriction fragment length polymorphism (RFLP) of mitochondrial DNA using a mitochondrial genome specific probe, atp 6 (from maize), were used to identify the parentage of a Rhizophora hybrid. The combined RAPD profiles of two species, Rhizophora apiculata and R. mucronata had 96.5% similarity with that of the hybrid, indicating that these two species are the probable parents. RFLPs for the mitochondrial genome were readily observed, and the RFLP profile of R. apiculata was exactly the same as that of the hybrid, establishing its maternal status for the hybrid. This is the first report on characterising the parentage of a Rhizophora hybrid using molecular markers.

Molecular phylogeny of mangroves V. Analysis of genome relationships in mangrove species using RAPD and RFLP markers

Abstract DNA from pooled leaf samples of 11 true major mangrove, three true minor mangrove, two mangrove associate, two mangrove parasite, three terrestrial and one cultivated species were isolated for the present study. In total, 198 random amplified polymorphic DNAs (RAPDs) and 180 restriction fragment length polymorphism (RFLP) loci were scored by using ten primers and 14 enzyme-probe combinations respectively. The polymorphism observed for these markers revealed a high degree of genetic diversity in mangroves at both inter-specific or inter-generic levels. A dendrogram, constructed after pooling both RAPD and RFLP data, using a similarity index was analysed for genome relationships among these species. The dendrogram showed clustering of all the major mangroves, except for Nypa fruticans (Arecaceae), into one group. All species under the tribe Rhizophorae formed a sub-cluster, to which Xylocarpus granatum was found to be the most closesly related species. The clustering pattern implied that Excoecaria agallocha and Acanthus ilicifolius should be considered as true minor mangroves. The present study also provided molecular data favouring the separation of Avicennia spp. from the Verbenaceae to create a monotypic family the Avicenniaceae. The separation of Viscum orientale into the Viscaceae was also favoured.

PCR-RFLP analysis of chloroplast gene regions in Cajanus (Leguminosae) and allied genera.

Twenty-eight species belonging to five genera of the sub tribe Cajaninae; viz., Cajanus(15 species), Rhynchosia (10 species), Dunbaria, Flemingia and Paracalyx were analysed for variations in four chloroplast generegions, rbcL, trnS-psbC, 16S and trnL-UAA. The four chloroplast gene regions were amplified with specific primers and subsequently digested with 15 restriction enzymes. Rhynchosia did not show any inter-specific differences in the four gene regions for any of the enzymes used. In Cajanus, the inter-specific PCR-RFLP profile of the four gene regions for all the enzymes were similar except for the Pst I digests of trnS-psbC gene region. At inter-generic level, rbcL gene region did not show polymorphism with any of the enzymes used; while in trnS-psbC gene region polymorphism was observed only with Pst I and Hae III digestions. Inter-generic PCR-RFLP of 16S did not reveal any variation. The trnL-UAA gene region had restriction site only forEcoR I in which Cajanus and Rhynchosia showed similar profiles while Dunbaria showed a different profile. The trnL-UAA gene region in Paracalyx and Flemingia did not have restriction site for this enzyme. Despite the analyses of four gene regions using 15 restriction enzymes, differentiation at genus level could not be obtained. These observations indicated limited divergence of the chloroplast genome among the four genera of the sub-tribe Cajaninae suggesting close relationships of the taxa.

Molecular phylogeny of mangroves. VI. Intraspecific genetic variation in mangrove species Excoecaria agallocha L. (Euphorbiaceae).

Genomic DNA from 84 individuals of Excoecaria agallocha from seven mangrove populations were analysed for random amplified polymorphic DNAs (RAPDs) using 16 random 10-mer primers. Polymorphism within populations varied from 20% to 31%. At the interpopulation level, 111/149 (74%) of RAPDs were polymorphic. Restriction fragment length polymorphism (RFLP) analysis of 21 individuals (3 individuals randomly selected from the 7 populations) using 30 probe-enzyme combinations revealed a high level of interpopulation polymorphism (62.2%) indicating interpopulation genetic divergence. The polymorphic RAPDs and RFLPs were pooled, and clustering was carried out based on mean similarity for individual populations. The dendrogram showed groupings of populations from the West and East Coasts of India into separate clusters, at 60% similarity level. Further, RAPD and RFLP analysis of male and female plants showed approximately the same level of variation in both sexes, and no sex-linked markers were found. These results demonstrate that considerable intrapopulation and interpopulation genetic variations exist in E. agallocha, and that lack of genetic variation is not the reason for the morphological uniformity observed across the range of the species.

Molecular phylogeny of mangroves VIII: Analysis of mitochondrial DNA variation for species identification and relationships in Indian mangrove Rhizophoraceae

Ten species belonging to four genera of the mangrove tribe Rhizophoreaefound in the Indian subcontinent were analysed for species identification andgenetic relationship using nine mitochondrial gene probes. RFLP patternobservedwith 27 probe enzyme combinations the genera Rhizophora,Bruguiera, Ceriops andKandelia differentiated these species into three classesofmitotypes with further resolution within them. Clustering of these mitotypesindicated that Rhizophora was more closely related toCeriops-Kandelia than to theBruguiera. Though the component species of each genusclustered together, a high degree of heterogeneity was observed among fourspecies of the genus Rhizophora and three species of genusBruguiera. The variation between two species ofCeriops was minimal. Species-specific profiles wereobserved for all the species in some probe-enzyme combination. Though themonotypic genus Kandelia shared a number of loci withgenusCeriops, it remained distinct. The putative parents of thenaturally occuring interspecific hybrid in Pichavaram were reconfirmed to beR. apiculata and R. mucronata. Theresults are discussed with regard to the taxonomic and phylogeneticrelationships between different species and genera of the tribe Rhizophoreae.

Random amplified polymorphic DNA analysis of root-nodulating bacterial strains from Arachis hypogaea with physiological characteristics of both fast and slow growers

N. MATHAN, M. PARANI, A. PARIDA AND S. NAIR. 1996. Strains of root‐nodulating bacteria isolated from Arachis hypogaea showed physiological characteristics of both fast and slow growers. Random amplified polymorphic DNA (RAPD) markers showed most of the genotypes could be identified using one or two primers; however, cluster analysis based on the number of bands shared by the genotypes showed a homogenous cluster. These strains were halotolerant in nature and have potential for use in saline soil.