Molecular cytogenetic analysis of the Vigna species distributed in Korea

Vigna plants distributed in Korea were analyzed by molecular cytogenetic fluorescence in situ hybridization (FISH), genomic in situ hybridization (GISH) and rDNA ITS/NTS sequences. FISH revealed that variable 45S rRNA gene loci (one to four) were localized on the terminal regions of chromosomes, while two conserved 5S rRNA gene loci from all species examined, except for rice bean (single locus), were detected. FISH and GISH showed the characteristic organization of rRNA gene loci and genomic homology on the chromosomes, indicating their cytogenetic relatationships. ITS sequence revealed that there was considerable variation in length (190–207 bp in ITS1, 205–221 bp in ITS2) and nucleotide composition (7–67 bp). The 5S rRNA gene unit comprised coding region (118 bp) and extensive sequence heterogeneity (97–221 bp). Phylogenetic analysis of the ITS and NTS sequences demonstrated that the Vigna species are divided into two groups: angularis (V. angularis, V. umbellata, V. nakashimae and V. nipponensis) and unguiculata (V. unguiculata, V. sesquipedalis and V. vexillata). Sequence data also showed that mung bean was closer to the angularis group.     

Direct shoot regeneration from cotyledonary nodes as a marker for genomic groupings within the Asiatic Vigna (subgenus Ceratotropis {Piper} Verdc.) species

In vitro culture of cotyledonary node (cn)explants, decapitated and intact seedlings of four different AsiaticVigna species (germinated and subcultured in MS-B5 mediumwith 1.0 mgl^–1 BA) resulted in axillaryshoot formation only from the epigeal V. radiata and thehypogeal but allotetraploid V. glabrescens. The hypogealspecies V. angularis and V. umbellatafailed to exhibit this response. Shoot decapitation invivopromoted similar response only in V. radiata, indicatingthat in vitro culture in BA-supplemented medium isrequiredby V. glabrescens to achieve the same response.Histological observations of the cn explants from 4-d-oldin-vitro-germinated seedlings at d 0(inoculation day), d 4 and d 8 (after inoculation) revealed the formation ofprimary axillary shoots (pas) in both V. radiata andV. glabrescens. Secondary axillary branching at the baseofthe pas was observed at 8 d. Further examination by scanningelectron microscope (SEM) confirmed the presence of shoot buds enveloped by atleast two leaf primordia in the explants at d 0 in all epigeal species namelyV. radiata, V. mungo and V.aconitifolia together with the hypogeal but allotetraploidV. glabrescens. Consistently, these structures were absentin V. angularis and V. umbellata.Present histological and SEM observations support the previous findings ofAvenido and Hattori (Plant Cell Tissue Organ Cult, 1999) that the induction ornon-induction of shoots directly from the nodes of invitro-cultured cn explants is a new marker corresponding to thegenomic grouping within the Asiatic Vigna species. Basedonhybridization studies, Dana (Breeding Methods for Improvement of Crops, 1980)designates AA, A₁A₁ and A₁A₁/- toall epigeal, hypogeal and the hypogeal but allotetraploid AsiaticVigna species, respectively. Moreover, these findingsproved that the differential in vitro regenerationresponse(i.e., response to BA) arises from inherent anatomical and developmentaldifferences, and is supportive of the genomic grouping within subgenusCeratotropis of the genus vigna.     

Differences in shoot regeneration response from cotyledonary node explants in Asiatic Vigna species support genomic grouping within subgenus Ceratotropis (Piper) Verdc.

The efficiency of any plant regeneration system lies in part in its wide applicability to diverse genotypes. In Asiatic Vigna, cotyledon and cotyledonary node explants from 4-day-old seedlings of 27 genotypes were cultured in a medium consisting of MS salts, B5 vitamins, 3.0% sucrose and 1.0 mg l^-1 BA. Direct and efficient multiple shoot regeneration (80–100%) from the cotyledonary nodes was obtained in all epigeal species namely radiata, mungo, aconitifolia, subspecies radiata var. sublobata, mungo var. silvestris and in the hypogeal but allotetraploid glabrescens. In contrast, two other hypogeal species V. angularis and V. umbellata failed to initiate shoots from the nodes. However, adventititious shoots developed at the basipetal cut (hypocotyl) in 35–67% of V. angularis explants. These results provide evidence in support of the existing genomic grouping within subgenus Ceratotropis, which designates AA, A₁A₁ and A₁A₁/- to epigeal, hypogeal and the allotetraploid species, respectively. Mean shoot production ranged from 3.3 to 10.4 shoots per explant during the first subculture and varied significantly among the responsive genotypes within 4 species. Additional shoots were obtained in all genotypes after subsequent subculture. However, cotyledons were not as regenerable as cotyledonary node explants. Although significant differences in rooting were observed among the shoots of the 15 genotypes, the response was generally higher in MS basal medium (MSO) than in MS with 1.0 mg l^-1 IAA. Regenerated plants were successfully transferred to soil (50–100% survival rate) and all surviving plants were reproductively fertile. This revised version was published online in June 2006 with corrections to the Cover Date.     

Distribution of low molecular weight carbohydrates in the subgenusCeratotropis of the genusVigna (Leguminosae)

The seeds of 9 members of the subgenusCeratotropis (Piper) Verdc., namelyVigna aconitifolia (Jacq.) Maréchal,V. angularis (Willd.) Ohwi et Ohashi,V. minima (Roxb.) Ohwi et Ohashi,V. nakashimae (Ohwi) Ohwi et Ohashi,V. reflexo-pilosa Hayata,V. umbellata (Thumb.) Ohwi et Ohashi,V. mungo (L.) Hepper,V. radiata (L.) Wilczek andV. sp., have been examined. On their low molecular weight carbohydrate compositions, this subgenus has been divided into 2 subgroups, mungo-radiata group and angularis group. Four other species referred to the subgeneraPlectotropis (Schumach.) Bak.,Lasiospron (Benth. emend Piper) Maréchal, Mascherpa et Stainier andVigna, V. vexillata (L.) A. Rich.,V. lasiocarpa (Benth.) Verdc.,V. marina (Burm.) Merr. andV. unguiculata (L.) Walp., were also analyzed and they had distinctive carbohydrate compositions. 1d-4-O-methyl-myo-inositol and 1d-5-O-(α-d-galactopyranosyl)-4-O-methyl-myo-inositol were detected in all species examined exceptV. vexillata, V. mungo andV. radiata.     

Chromatin differentiation between Vigna radiata (L.) R. Wilczek and V. unguiculata (L.) Walp. (Fabaceae)

A comparative chromosomal evaluation was carried out between Vigna unguiculata (cowpea) and V. radiata (mung bean) with chromomycin A₃ (CMA₃)/4’,6-diamidino-2-phenylindole (DAPI) banding and fluorescent in situ hybridization (FISH) using 5S/45S ribosomal DNA (rDNA) probes. Both species had symmetric karyotypes (2n = 22), with prevalence of centromeres in chromosomes at median (m) and submedian (sm) regions and chromosomes ranging in size from 2.1 to 1.25 μm (V. unguiculata) and 2.18 to 0.93 μm (V. radiata). Three different banding patterns were identified for V. unguiculata: CMA₃⁺/DAPI⁰, CMA₃⁺⁺/DAPI^–, and CMA₃⁺/DAPI^–. The CMA₃⁺/DAPI⁰ bands were observed in the pericentromeric regions of all chromosomes, while the CMA₃⁺⁺/DAPI^– and CMA₃⁺/DAPI^– bands were co-localized with the 45S rDNA in the subtelomeric position (chromosomes B, G, and D, J, respectively) and in the proximal position in chromosome F. Two pairs of chromosomes (D and I) bearing interstitial 5S rDNA have been also identified. Vigna radiata displayed CMA₃⁰/DAPI⁺ bands distributed in the centromeric region of chromosomes B, C, and F, while CMA₃⁺⁺/DAPI^– bands were co-localized with the 45S rDNA sites in the subtelomeric position of the short arm in the F and K chromosome pairs. Three pairs of 5S rDNA sites were identified, the first in the proximal region of the long arm in chromosome E and the two others in the proximal and subterminal positions in the long arm of chromosome J. These data highlight some divergences regarding the amount and composition of the heterochromatin in both species, allowing the identification of individual chromosomes in V. unguiculata and V. radiata, and a comparison with other members of the Phaseoloid clade.     

Cytogenetic characterization and mapping of rDNAs,core histone genes and telomeric sequences in <Emphasis Type="Italic">Venerupis aurea</Emphasis> and <Emphasis Type="Italic">Tapes rhomboides</Emphasis> (Bivalvia: Veneridae)

We describe the chromosomal location of GC-rich regions, 28S and 5S rDNA, core histone genes, and telomeric sequences in the veneroid bivalve species Venerupis aurea and Tapes (Venerupis) rhomboides, using fluorochrome staining with propidium iodide, DAPI and chromomycin A3 (CMA) and fluorescent in situ hybridization (FISH). DAPI dull/CMA bright bands were coincident with the chromosomal location of 28S rDNA in both species. The major rDNA was interstitially clustered at a single locus on the short arms of the metacentric chromosome pair 5 in V. aurea, whereas in T. rhomboides it was subtelomerically clustered on the long arms of the subtelocentric chromosome pair 17. 5S rDNA also was a single subtelomeric cluster on the long arms of subtelocentric pair 17 in V. aurea and on the short arms of the metacentric pair 9 in T. rhomboides. Furthermore, V. aurea showed four telomeric histone gene clusters on three metacentric pairs, at both ends of chromosome 2 and on the long arms of chromosomes 3 and 8, whereas histone genes in T. rhomboides clustered interstitially on the long arms of the metacentric pair 5 and proximally on the long arms of the subtelocentric pair 12. Double and triple FISH experiments demonstrated that rDNA and H3 histone genes localized on different chromosome pairs in the two clam species. Telomeric signals were found at both ends of every single chromosome in both species. Chromosomal location of these three gene families in two species of Veneridae provides a clue to karyotype evolution in this commercially important bivalve family.     

Vigna mungo, V. radiata and V. unguiculata plants sampled in different agronomical–ecological–climatic regions of India are nodulated by Bradyrhizobium yuanmingense

Vigna mungo, Vigna radiata and Vigna unguiculata are important legume crops cultivated in India, but little is known about the genetic resources in native rhizobia that nodulate these species. To identify these bacteria, a core collection of 76 slow-growing isolates was built from root nodules of V. mungo, V. radiata and V. unguiculata plants grown at different sites within three agro-ecological-climatic regions of India. The genetic diversity of the bacterial collection was assessed by restriction fragment length polymorphism (RFLP) analysis of PCR-amplified DNA fragments of the 16S–23S rDNA intergenic spacer (IGS) region, and the symbiotic genes nifH and nodC. One rDNA IGS type grouped 91% of isolates, but more diversity was found at the symbiotic loci (17 symbiotic genotypes). Overall, no host plant specificity was shown, the three host plant species sharing common bradyrhizobial genotypes that represented 62% of the collection. Similarly, the predominant genotypes were found at most sampling sites and in all agro-ecological-climatic regions. Phylogenies inferred from IGS sequencing and multi-locus sequence analysis of the dnaK, glnII and recA genes indicated that all isolates but one were clustered with the Bradyrhizobium yuanmingense species. The nifH phylogeny also grouped the different nif haplotypes within a cluster including B. yuanmingense, except for one infrequent nif haplotype which formed a new lineage within the Bradyrhizobium genus. These results may reflect a long history of co-evolution between B. yuanmingense and Vigna spp. in India, while intra-species polymorphism detected in the symbiotic loci may be linked with the long history of diversification of B. yuanmingense coinciding with that of its host legumes.     

Molecular phylogeny of genus Vigna subgenus Ceratotropis based on rDNA ITS and atpB-rbcL intergenic spacer of cpDNA sequences

The genetic diversity and phylogenetic relationships among species in the genus Vigna subgenus Ceratotropis were investigated using sequence data from the ribosomal DNA ITS and atpB-rbcL intergenic spacer of chloroplast DNA regions. While both sets of sequences were of similar lengths about 700bp the rDNA-ITS was more informative than atpB-rbcL having 170% more polymorphic sites and five times as many parsimony-informative sites. The atpB-rbcL spacer may be appropriate for analysis of taxa above the species level in the genus Vigna. Results of analyzing rDNA-ITS revealed, with low level of statistical bias, separation of the subgenus into three groups that correspond to the three sections Aconitifoliae, Angulares, and Ceratotropis. The ancestral section is Aconitifoliae based on comparison with the outgroup species cowpea, Vigna unguiculata. The V. minima complex, V. minima, V. riukiuensis, and V. nakashimae, has a distinct evolutionary path within section Angulares. Other species in section Angulares are very closely related except V. trinervia. Vigna trinervia has an intermediate position between sections. Sequence data suggests one genome donor to V. reflexo-pilosa came from a lineage within section Angulares close to V. exilis, V. hirtella, and V. umbellata. Data presented supports the view that section Angulares is the most recently diversified section in the subgenus, as inferred by short terminal branch lengths among the species of this section.     

Karyotype evolution and phylogenetic analyses in the genus Cardiospermum L. (Paullinieae,Sapindaceae)

Cardiospermum L. belongs to the Paullinieae tribe (Sapindaceae) and comprises 16 species. Of these, 12 species are present in South America and all occur in Brazil. Cardiospermum shows the most variable chromosome number of the tribe. Phylogenetic relationships within the genus Cardiospermum, especially with other species of the tribe, are poorly understood. This research focuses on characterisation of the karyotypic features of Cardiospermum using conventional cytogenetic methods, CMA/DAPI chromosome banding and fluorescence in situ hybridisation (FISH). To elucidate the phylogeny of the genus, the nuclear markers ITS1 and ITS2 were sequenced and analysed using maximum parsimony and Bayesian inference. Cardiospermum shows important diversity in basic numbers, with x = 7, 9, 10, 11 and 12. All species studied have metacentric and submetacentric chromosomes, some species have subtelocentric chromosomes, while telocentric chromosomes are absent. The interphase nuclei differentiate the Cardiospermum species into two groups. The CMA₃/DAPI chromosome banding revealed the presence of an AT‐rich terminal region in C. corindum, C. grandiflorum and C. urvilleoides, whereas GC‐rich regions were found in C. grandiflorum, C. halicacabum var. halicacabum, C. halicacabum var. microcarpum, C. heringeri and C. integerrimum. FISH revealed syntenic and non‐syntenic distribution of the 18‐5.8‐26S and 5S rDNA. The syntenic distribution always occurred in the short arms of the same chromosome in all of the species. The phylogenetic relationships reveal, in part, the taxonomic arrangement of the genus Cardiospermum.     

<Emphasis Type="Italic">Astyanax</Emphasis> <Emphasis Type="Italic">bockmanni</Emphasis> Vari and Castro, 2007: an ambiguous karyotype in the <Emphasis Type="Italic">Astyanax</Emphasis> genus

Despite the widespread distribution of Astyanax bockmanni in streams from Upper Paraná River system in central, southeastern, and southern Brazil, just recently, it has been identified as a distinct Astyanax species. Cytogenetic studies were performed in two populations of this species, revealing conservative features. A. bockmanni shows 2n = 50 chromosomes, a karyotypic formula composed of 10 M + 12SM + 12ST + 16A and multiple Ag-NORs. Eight positive signals in subtelocentric/acrocentric chromosomes were identified by fluorescent in situ hybridization (FISH) with 18S rDNA probes. After FISH with 5S rDNA probes, four sites were detected, comprising the interstitial region of a metacentric pair and the terminal region on long arms of another metracentric pair. Little amounts of constitutive heterochromatin were observed, mainly distributed at distal region in two chromosomal pairs. Additionally, heterochromatin was also located close to the centromeres in some chromosomes. No positive signals were detected in the chromosomes of A. bockmanni by FISH with the As-51 satellite DNA probe. The studied species combines a set of characteristics previously identified in two different Astyanax groups. The chromosomal evolution in the genus Astyanax is discussed.     

Chromosomal localization of 18S and 5S rDNA using FISH in the genus <Emphasis Type="Italic">Tor</Emphasis> (Pisces,Cyprinidae)

Dual color fluorescence in situ hybridization (FISH) was performed to study the simultaneous chromosomal localization of 18S and 5S ribosomal genes in the genus Tor for the first time. The 18S and 5S rDNAs in four Tor species were amplified, sequenced and mapped on the metaphase chromosomes. The number and distribution of 18S and 5S rDNA clusters were examined on metaphase chromosome spreads using FISH. The specimens of T. chelynoides, T. putitora and T. progeneius showed six bright fluorescent signals of 18S rDNA and T. tor exhibited ten such signals. The 5S rDNA signals were present only on one pair of chromosomes in all the four Tor species. Ag-NORs were observed on two pairs of chromosomes in T. chelynoides, T. putitora, T. progeneius and four pairs in T. tor. Comparison of the observed 18S rDNA FISH signals and Ag-NORs strongly suggested a possible inactivation of NORs localized at the telomeres of a subtelocentric and telocentric chromosome pairs in all four species. The 5S rDNA contained an identical 120 bp long coding region and 81 bp long highly divergent non-transcribed spacers in all species examined. 18S and 5S rDNA sequencing and chromosomal localization can be a useful genetic marker in species identification as well as phylogenetic and evolutionary studies.     

Molecular evolution of 5S rDNA region in Vigna subgenus Ceratotropis and its phylogenetic implications

The evolution of 5S rRNA gene unit (5S gene unit) was studied among the ten species belonging to Vigna subgenus Ceratotropis by sequencing and analyzing the intra- and inter-specific sequence heterogeneity. The 5S unit from these species ranged from 214 to 342 bp in length as a result of several indels in the intergenic spacer (IGS) region. A large deletion (>100 bp) was found specifically in the IGS of V. radiata accessions. IGS showed high sequence variation with more than 50% polymorphic and 35.4% parsimony informative sites. However, the coding region (5S gene) was highly conserved, both in length and in sequence. Intra-genomic and intra-specific divergence was observed among some species, which indicated that the 5S unit is evolving at different rates among the Vigna species. Most Vigna species harbored one type of 5S unit indicating complete homogenization among them. Vigna glabrescens, a tetraploid species, also showed single type of 5S rDNA from only one of the diploid progenitor indicating loss or homogenization of the other type. However, V. nakashimae and V. riukiuensis harbored multiple, diverse, ‘intra-genomic 5S types’ indicating that 5S rDNA is not completely homogenized by concerted evolution and is still evolving. In general, the phylogeny based on IGS sequences was in agreement with many of the earlier reports except some surprising observations such as, V. glabrescens clustered with V. mungo in section Ceratotropis and unlike most of the species, wild and cultivated types of V. umbellata were present in different subclusters. Presence of divergent 5S sequences in V. nakashimae and V. riukiuensis caused errors in phylogeny reconstruction at species level and suggested a horizontal ‘gene transfer’ as a result of inter-species hybridization. The comparative analysis showed that 5S IGS sequences have better phylogenetic utility than chloroplast DNA sequences, such as atpB-rbcL and is comparable to ITS1 and ITS2 in this respect.     

Chromosome phylogeny of <Emphasis Type="Italic">Zamia</Emphasis> and <Emphasis Type="Italic">Ceratozamia</Emphasis> by means of Robertsonian changes detected by fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization (FISH) technique of rDNA

 Appearance and location of 45S rDNA and 5S rDNA signals were compared in chromosomes of nine species of the aneuploid Zamia and their taxonomically and phylogenetically closely related Ceratozamia mexicana. The 45S rDNA signal was detected in the proximal region of six chromosomes in Zamia angustifolia, Z. integrifolia, Z. pumila and Z. pygmaea (all 2n=16); in the proximal region of 6–14 chromosomes in Z. furfuracea, Z. loddigesii, Z. skinneri and Z. vazquezii (all 2n=18); and on the proximal region of 20 chromosomes in Z. muricata (2n=23). The 5S rDNA signals were commonly seen near the terminal region of the short arm of two metacentric chromosomes in the four species with 2n=16 and Z. furfuracea, Z. loddigesii and Z. vazquezii with 2n=18. Other 5S rDNA signals were seen near the terminal region of two terminal-centromeric chromosomes in Z. skinneri and near the terminal region of a metacentric and a telocentric chromosomes in Z. muricata. In contrast, those with 45S and 5S rDNA signals were exhibited in chromosomes of Ceratozamia mexicana in a different manner from those in the nine species of Zamia; the 45S rDNA signal in the terminal region of four metacentric and two submetacentric chromosomes and the 5S rDNA signal near the proximal region of two metacentric chromosomes. Received November 1, 1999 Accepted January 10, 2001     

Diversification of a ZZ/ZW sex chromosome system in Characidium fish (Crenuchidae, Characiformes)

Karyotype and other chromosomal markers of Characidium cf. gomesi were analyzed using conventional (Giemsa-staining, Ag-NOR and C-banding) and molecular (Fluorescent in situ hybridization (FISH) with 18S and 5S rDNA biotinylated probes) techniques. Both sexes had invariably diploid chromosome number 2n = 50 while karyotypes of males and females differed. That of male consisted of 32 metacentric + 18 submetacentric chromosomes and that of female consisted 31 metacentric + 18 submetacentric + 1 subtelocentric chromosomes. The Z chromosome was medium-sized metacentric, while W was highly heterochromatinized subtelocentric element. NORs as revealed by Ag-staining were situated at 2–7 telomeric regions while FISH with 18S probes showed consistently 10 signals at telomeric regions. FISH with 5S rDNA probe showed constantly signals at one metacentric pair. Distribution of centromeric heterochromatin was mostly in all chromosome pairs, besides some telomeric sites. The common origin of the sex chromosome system of ZZ/ZW type in the karyotypes of other representatives of the genus analyzed so far might be hypothesized based on biogeography and partial phylogeny of the group.     

Chromosome banding and FISH with rDNA probe in the diploid and tetraploid loach Misgurnus anguillicaudatus

The chromosomes of the diploid and tetraploid loach Misgurnus anguillicaudatus were analyzed by staining with Ag, chromomycin A₃ (CMA₃)/distamycin A (DA), and DA/4′,6-diamidino-2-phenylindole (DAPI), and using fluorescence in situ hybridization (FISH) with 5.8S + 28S rDNA as a probe. Nucleolus organizer regions (NORs) were mapped to the telomeric region of the short arms of the largest (first) metacentric chromosome pair in the diploid loach with 2n = 50 and the homologous quartet in the tetraploid loach with 4n = 100. The NORs were positive at the same region of the first metacentric chromosome for Ag and CMA₃/DA stainings, but negative for DA/DAPI staining. Four signals at the homologs within the same quartet suggest the duplication of the entire genome from diploid to tetraploid status. However, a size difference was detected between the rDNA signals by FISH and CMA₃ banding.     

Chromosome analysis of walking catfish,Clarias magur (Teleostei,Siluriformes, Clariidae), using staining,FISH with 18S, 5S and BAC probes

The chromosomal characteristics of Clarias magur were examined using conventional (Giemsa-staining, Ag-impregnation and CMA₃ + DAPI fluorescence) and molecular/ FISH (18S & 5S rDNA probes + one BAC DNA probe) cytogenetic tools. The diploid chromosome number was 50 and the karyotype consisted of 14 metacentric, 20 sub-metacentric, 8 sub-telocentric, 8 acrocentric chromosomes with 84 chromosome arms without any heteromorphic pair. The C-heterochromatic blocks were located on centromeric position of 13 pairs of chromosomes. The NOR sites, visualized by AgNO₃- and CMA₃- staining, were situated at p arms of chromosome pair No. 21, which also corresponded to 18S rDNA site visualized by FISH. The FISH signal of ICF_001_D19 clone probe was observed on 18th chromosome pair. The findings of the present study on C. magur provided valuable markers for the chromosome identification and locations of genes of the BAC clone on the chromosome will lead to the construction of physical map of genome of this species.     

Cytogenetic characterization of <Emphasis Type="Italic">Lippia alba</Emphasis> and <Emphasis Type="Italic">Lantana camara</Emphasis> (Verbenaceae) from Brazil

The aim of this work was to determine the cytogenetic characteristics of Brazilian Lippia alba (Mill) N. E. Brown and Lantana camara Plum. that could be useful for future characterization of these genera. Our analyses revealed that Li. alba has 2n=30 chromosomes consisting of ten metacentric and five submetacentric pairs, while La. camara has 44 metacentric chromosomes. The large blocks of heterochromatin seen in both species suggest an apomorphic condition. Six 45S rDNA sites were detected in both species by fluorescence in situ hybridization (FISH). Two and four 5S rDNA sites were observed in Li. alba and La. camara, respectively. Meiotic analysis revealed a normal chromosomal behaviour. The number of chromosomes and the presence of 45S rDNA and 5S rDNA sites do not exclude a possible polyploid origin. The cytogenetic differences between La. camara and Li. alba may be useful markers for differentiating these species.     

Physical mapping of the 5S ribosomal RNA genes in Arabidopsis thaliana by multi-color fluorescence in situ hybridization with cosmid clones

The 5S ribosomal RNA genes were mapped to mitotic chromosomes of Arabidopsis thaliana by fluorescence in situ hybridization (FISH). In the ecotype Landsberg erecta, hybridization signals appeared on three pairs of chromosomes, two of which were metacentric and the other acrocentric. Hybridization signals on one pair of metacentric chromosomes were much stronger than those on the acrocentric and the other pair of metacentric chromosomes, probably reflecting the number of copies of the genes on the chromosomes. Other ecotypes, Columbia and Wassilewskija, had similar chromosomal distribution of the genes, but the hybridization signals on one pair of metacentric chromosomes were very weak, and detectable only in chromosomes prepared from young flower buds. The chromosomes and arms carrying the 5S rDNA were identified by multi-color FISH with cosmid clones and a centromeric 180 bp repeat as co-probes. The metacentric chromosome 5 and its L arm carries the largest cluster of the genes, and the short arm of acrocentric chromosome 4 carries a small cluster in all three ecotypes. Chromosome 3 had another small cluster of 5S rRNA genes on its L arm. Chromosomes 1 and 2 had no 5S rDNA cluster, but they are morphologically distinguishable; chromosome 1 is metacentric and 2 acrocentric. Using the 5S rDNA as a probe, therefore, all chromosomes of A. thaliana could be identified by FISH. Chromosome 1 is large and metacentric; chromosome 2 is acrocentric carrying 18S-5.8S-25S rDNA clusters on its short arm; chromosome 3 is metacentric carrying a small cluster of 5S rDNA genes on its L arm; chromosome 4 is acrocentric carrying both 18S-5.8S-25S and 5S rDNAs on its short (L) arm; and chromosome 5 is metacentric carrying a large cluster of 5S rDNA on its L arm.     

Bruchid pest management in pulses: past practices,present status and use of modern breeding tools for development of resistant varieties

Bruchids (Callosobruchus spp.) are recognised as the most detrimental storage pest of pulses, especially in the tropics and subtropics. They invade matured pods as well as seeds during storage and, to some extent, farming fields, in turn reducing the net yield of the crops. Several approaches including cultural, biological, physical and chemical control measures have been implemented with the aim of managing these pests, but none of these have been successful across time and space. Recently, transgenic‐ and marker‐assisted breeding approaches have appeared as promising tools for the successful management of these pests. Although some efforts have been made on the development of bruchid‐resistant transgenic crops, the cultivars developed are yet to be commercialised worldwide because of various limitations. In contrast, marker‐assisted breeding involving the identification of DNA‐based markers linked to host resistance against bruchids, have shown some success in the quest for the development of bruchid‐resistant cultivar(s). DNA markers linked to bruchid resistance have been identified in various grain legumes, particularly in the genus Vigna, and include mung bean (Vigna radiata), azuki bean (Vigna angularis), rice bean (Vigna umbellata), cowpea (Vigna unguiculata) and black gram (Vigna mungo). After their validation in different genetic backgrounds, these markers could be utilised for marker‐assisted selection and breeding ventures to protect pulse crops. The present study discusses the pros and cons of different approaches for the successful management of the bruchid pests in pulses. The review also highlights about the integrative approach aided with molecular interventions to improve productivity by avoiding losses incurred due to bruchids, and to attain sustainable yields for major pulse crops.