Genetic variability of Hedysarum coronarium L. using molecular markers Trifi-Farah N., Marrakchi M. in Sulas L. (ed.). Legumes for Mediterranean forage crops, pastures and alternative uses Zaragoza : CIHEAM Cahiers Options Méditerranéennes; n. 45 2000 pages 85-89 Article available on line / Article disponible en ligne à l adresse : http://om.ciheam.org/article.php?idpdf=600174 To cite this article / Pour citer cet article Trifi-Farah N., Marrakchi M. Genetic variability of Hedysarum coronarium L. using molecular markers. In : Sulas L. (ed.). Legumes for Mediterranean forage crops, pastures and alternative uses. Zaragoza : CIHEAM, 2000. p. 85-89 (Cahiers Options Méditerranéennes; n. 45) http://www.ciheam.org/ http://om.ciheam.org/
Genetic variability of Hedysarum coronarium molecular markers using N. de Génétique et Faculté des Sciences de Tunis, 2092 El Tunis, Tunisie.; e-mail: mohamed. Summary - The study of genetic in Hedysarum coronarium L. has been by the help of analysis in 75.individuals five local populations Taking advantages of the shown by the genes, we in the use of genes as to analyse the genetic among and within spontaneous populations of H. coronarium. A homologous was used to five spontaneous populations. The of the bands was studied using a analysis. has been assumed that a high of the hand, the was not a population addition, a genetic has been detected in the case of populations by a maximum of phenotypic (opposite data in good with based on isozyme Hedysarunl coronarium, genetic - Analyse de la variabilité génétique chez L. par des marqueurs moléculaires. L étude de la diversité génétique de a été entreprise par la technique du polymorphisme de la longueur des fragments de restriction chez 75 individus représentant 5 populations spontanées locales d origines géographiques Tenant compte de la grande diversité offerte par les gènes nous avons utilisé une sonde homologue Les résultats qui énanent de l analyse multivariée montrent une importante variabilité génétique indépendamment de l origine géographique. De plus, une diversité génétique considérable a été mise en évidence pour des populations caractérisées pur des dlfférences morphologiques (géotropisme opposé). génétique Tunisia, local phytogenetic have been damaged by a genetic due to and of land. Thus, to the lands. Among these Hedysarum species in and usable to and enhance phytogenetic that among species, which and highly palatable to sheep, only Hedysarum coronarium L. (also called Sulla Spanish sainfoin) is in specially in Spain, species to be in all except et al., 1995). In Tunisia, the semi ecological domain of H. coronarium, is the of the Tunisian Vegetative shoot system in this species is main stem some shoots. to of these spontaneous phytogenetic in the analysis of the genetic in this this scope, studies based on allozymic have been conducted within a set of spontaneous 85
populations and of H. coronarium. both of these exhibit a high allozymic in spite of distinctiveness by opposite et al., 1989). As of aiming at the of to the genetic we became in the use of genes as The analyses constitute an efficient method widely used to genetic in plants and to the species et al., and 1996; et al., 1997; et al., 1998; Anamthawat-Jonson et al., 1999). The of this study was to take advantage of the shown by within and among plant populations to quantify the genetic in Hedysarum coronarium L. we the use of to the of and to detect among genotypes. Five accessions H. coronarium collected populations Tunisia. These Tunis (Tu), Jebe1 Zit (Zi) and El- (Eh). collected seeds each accession The seedlings in dishes and incubated in a until of and cotyledons. Total was isolated the seedlings to et al., (1983) and population analysis, genomic each of the 75 selected plants was digested with Alu Sma and enzymes. The was in 0.8% gel and to nylon by blotting (1975). The and in SxSSC, 5x 0.5% 45% at 42 C with labelled The washed and exposed film at et al., 1989). A of 1.6 kb to the was used as homologous designs a amplified using oligonucleotides flanking the sequences in the main unit. bands Values used to a component analysis a Analysis of (FAC). Five H. coronarium accessions studied to the of and to detect among genotypes. Using all the X enzymes combinations, a total of 39 bands These a high of genetic at the level. Among these bands, 8 Sma 9 10 and 12 Alu each enzyme, bands labelled 1 the slowly one. then computed to study the genetic using FAC The of H. coronarium based mainly on the that account 29,20% of the i.e. 12,27%, 9,61% and 7,32% (Table 1). The most by of the used enzymes. and mainly to The analysis using and (Fig.l), has between genotypes by opposite This is well examplified by and Zi accessions which by and easily 86
distinguishable the ones (i.e. Eh, Tu and We may assume that this seems to be with the enzyme. The main enzyme in the definition of axis is in this assumption. Table 1: Eigenvalues, axes of the in H. coronarium populations. associated with the components (axes) 3 1 2 of 12.27 29.20 21.88-0.09 0.42 o. 12 0.01 0.34 0.16-0.03-0.23 0.26-0.26 0.22-0.40-0.11-0.37-0.22 0.12 O. 13 0.03 0.08-0.24-0.16-0.14 O. 17-0.02-0.03-0.03 0.00 addition, data analysis using FAC not shown). the close may indicate that banding genetically of the tested accessions. These help to examine the genetic at the level and to evidence of Conclusions The study was conducted with only one that of data constitute an inspection of the use of to analyse the genetic in H. coronarium genotypes and to shed the light on the domestication in H. coronarium. has been established that such is the The not a population V., L. (1996). unit length a putative of genetic in jojoba. Sci., 153,296-302. Anamthawat-Jonson, in Leymus species and populations. 8,309-315. Fadhel, N., N., (1995). species of Hedysarum genus. In: Genetic resources of forage and grass plants, p.p. 115-130, INRA ed. S.L., Wood J., (1983). A plant Bio1 1, 19-21. 87
F., of the 5s in jussieu. Genet Crop,42, 311-325. N'Cho, Seguin, (1998). in coconut (Cocos nucifera L.) 101, 103-108. Lakshmi, Elango, S., N., C.S., phylogeny of and in and Genome, 40,487-495. J., E.F., T. (1989). cloning: a laboratory manual, 2nd ed. Cold N.Y. of specific sequences among by J. Biol., 98, 503-518. N., Chatti, W.S., J. and enzymatic in Hedysarum coronarium L. Agronomy, 9,591-598. 88