Dr. Ramesh Aggarwal superannuated in 2018 as Chief Scientist and Group leader, CSIR-Centre for Cellular and Molecular Biology (CCMB) after nearly 32 years in service. He is currently an Honorary Scientist, CCMB, and Professor of Biology, Academy of Scientific Phone: +91 9849042817 Address: Residence: H-307, Indu Aranya Pallavi GSI Post Bandlaguda, Nagole Hyderabad 500068 Telangana India
ABSTRACT Tea (Camellia L.) is the world’s most consumed health drink and is also important econom... more ABSTRACT Tea (Camellia L.) is the world’s most consumed health drink and is also important economically. Due to its self-incompatible and outcrossing nature, tea is composed of highly heterogeneous germplasm. It is a perennial, slow-growing crop and hence the successful release of new improved cultivars following conventional breeding methods takes years. In this context, a DNA marker-based molecular breeding approach holds great promise in accelerating genetic improvement programs in tea. Here we describe the isolation of a set of highly polymorphic genomic microsatellite markers using the enrichment approach, which may be useful for phylogenetic and marker-assisted breeding programs in tea. The enriched library comprising 3,205 clones was screened for the presence of microsatellites using a three-primer-based colony PCR method. Four hundred positive clones were selected and sequenced, to reveal 153 sequences containing simple sequence repeats. Seventy-eight primer pairs were designed from repeat-positive sequences, out of which 40 primer pairs produced successful amplifications. Twenty-two of these primer pairs, when tested on a panel of 21 diverse tea clones and accessions, were found to be highly polymorphic, resulting in 137 alleles with an average of 6.76 alleles per primer pair. The polymorphic information content (PIC), expected heterozygosity (H e) and observed heterozygosity (H o) of the polymorphic markers ranged from 0.1 to 0.9, 0.1–0.9 and 0.0–0.8, with average values of 0.6 ± 0.18, 0.7 ± 0.17 and 0.5 ± 0.22, respectively. These markers can be applied for various diversity analyses, mapping programs and genotyping of tea crop.
We describe here a 5.8-Mb draft genome sequence ofRhodococcus pyridinivoransstrain KG-16, which w... more We describe here a 5.8-Mb draft genome sequence ofRhodococcus pyridinivoransstrain KG-16, which was obtained from the soil samples collected from the oilfields of Krishna-Godavari basin in India. This genomic resource can provide insights into the pathways and mechanisms of hydrocarbon degradation and potentially aid in bioremediation applications.
Blood samples collected in the field for isolating DNA suitable for molecular analysis need speci... more Blood samples collected in the field for isolating DNA suitable for molecular analysis need special care in their storage and handling. In this article, we describe a simple method for the isolation of good-quality high-molecular-weight DNA that does not require low temperature conditions during collection, storage, and/or transportation of blood samples. This method involves smearing small aliquots of blood onto clean slides and air drying them at room temperature. The slides with blood smears can then be transported or stored at room temperature and still serve as a very good source of high-molecular-weight DNA. Genomic DNA from these samples can be extracted by organic phase separation (phenol-chloroform extraction) after lysis. The DNA thus obtained is of high quality and yields DNA fingerprints qualitatively similar to those prepared from corresponding control DNA isolated from frozen blood samples. Needing minimal facilities at field sites, the method is very convenient for conducting RFLP analysis of wild/field populations for demographic, behavioral, and ecologic studies.
Cultivated rice is a high-volume, low-value cereal crop providing staple food to more than 50% of... more Cultivated rice is a high-volume, low-value cereal crop providing staple food to more than 50% of the world populace. A small group of rice cultivars, traditionally produced on the Indo-Gangetic plains and popularly known as Basmati, have exquisite quality grain characteristics and are a prized commercial commodity. Efforts to improve the yield potential of Basmati have led to the development of several crossbred Basmati-like cultivars. In this study we have analysed the genetic diversity and interrelationships among 33 rice genotypes consisting of the traditional Basmati, improved Basmati-like genotypes developed in India and elsewhere, American long-grain rice and a few non-aromatic rice using a DNA marker-based approach - fluorescent-amplified fragment length polymorphism (f-AFLP). Using a set of nine primer-pairs we scored a total of 10,672 data points over all of the genotypes in the size range of 75-500 bp. The scored data points corresponded to a total of 501 AFLP markers (putative loci/genome landmarks) of which 327 markers (65%) were polymorphic. The f-AFLP marker data, which were analysed using different clustering algorithms and principal component analysis, indicate that: (1) considerable genetic variability exists in the analysed genotypes; (2) traditional Basmati cultivars could be distinctly separated from the crossbred Basmati-like genotypes as well as from the non-aromatic rice; (3) the crossbred Basmati-like cultivars from the subcontinent and elsewhere are genetically very distinct; (4) f-AFLP-based clustering, in general, conforms to the putative pedigree of the improved genotypes. Moreover, analysis to ascertain the scope of AFLP as a technique suggests that the polymorphism revealed by three selective primer-pair combinations is sufficient to obtain reliable estimates of genetic diversity for the type of material used in this study. However, its utility to identify group-specific DNA markers was discounted due to a low frequency of observed group-specific discrete markers.
The genus Oryza to which cultivated rice belongs has 22 wild species. Seventy-seven accessions of... more The genus Oryza to which cultivated rice belongs has 22 wild species. Seventy-seven accessions of 23 Oryza species, five related genera, and three outgroup taxa were fingerprinted using amplified fragment length polymorphism (AFLP). A total of 1191 polymorphic markers were obtained using five AFLP primer combinations. AFLP data were analyzed to study species relationships using different clustering algorithms, and the
tau-Crystallin is a taxon-restricted crystallin found in eye lenses of reptiles and a few avian s... more tau-Crystallin is a taxon-restricted crystallin found in eye lenses of reptiles and a few avian species but presumably absent in mammals. The level of tau-crystallin in the lens varies among different species. In the crocodile lens, it is the least abundant crystallin and is present in trace amounts. We present a method for cloning, overexpression, and purification of crocodilian tau-crystallin utilizing a combination of gel filtration and ion-exchange chromatography yielding an extremely purified protein. The protein gets profusely expressed resulting in a fairly high yield and exists as a monomeric entity of 47.5 kDa molecular mass. The recombinant tau-crystallin exists in a properly folded native state as probed by circular dichroism and fluorescence spectroscopy and exhibits enolase activity.
Individual-specific DNA fingerprints of crocodilians were obtained by the use of Bkm-2(8) probe. ... more Individual-specific DNA fingerprints of crocodilians were obtained by the use of Bkm-2(8) probe. Pedigree analyses of Crocodylus palustris, C. porosus and Caiman crocodilus revealed that the multiple bands (22-23 bands with Aludigest) thus obtained were inherited stably in a Mendelian fashion. Unique fingerprints permitted us to identify individuals, assign parentage, and reconstruct the DNA profile of a missing parent. Average band sharing between unrelated crocodiles was found to be 0.37. Band sharing between animals of known pedigrees increased predictably with relatedness and provided a basis for distinguishing relatives from non-relatives. Similar results obtained in other species/genera, using the same probe, suggest that this approach may be applicable to all species of crocodilians, and could facilitate genetic studies of wild and captive populations.
ABSTRACT Tea (Camellia L.) is the world’s most consumed health drink and is also important econom... more ABSTRACT Tea (Camellia L.) is the world’s most consumed health drink and is also important economically. Due to its self-incompatible and outcrossing nature, tea is composed of highly heterogeneous germplasm. It is a perennial, slow-growing crop and hence the successful release of new improved cultivars following conventional breeding methods takes years. In this context, a DNA marker-based molecular breeding approach holds great promise in accelerating genetic improvement programs in tea. Here we describe the isolation of a set of highly polymorphic genomic microsatellite markers using the enrichment approach, which may be useful for phylogenetic and marker-assisted breeding programs in tea. The enriched library comprising 3,205 clones was screened for the presence of microsatellites using a three-primer-based colony PCR method. Four hundred positive clones were selected and sequenced, to reveal 153 sequences containing simple sequence repeats. Seventy-eight primer pairs were designed from repeat-positive sequences, out of which 40 primer pairs produced successful amplifications. Twenty-two of these primer pairs, when tested on a panel of 21 diverse tea clones and accessions, were found to be highly polymorphic, resulting in 137 alleles with an average of 6.76 alleles per primer pair. The polymorphic information content (PIC), expected heterozygosity (H e) and observed heterozygosity (H o) of the polymorphic markers ranged from 0.1 to 0.9, 0.1–0.9 and 0.0–0.8, with average values of 0.6 ± 0.18, 0.7 ± 0.17 and 0.5 ± 0.22, respectively. These markers can be applied for various diversity analyses, mapping programs and genotyping of tea crop.
We describe here a 5.8-Mb draft genome sequence ofRhodococcus pyridinivoransstrain KG-16, which w... more We describe here a 5.8-Mb draft genome sequence ofRhodococcus pyridinivoransstrain KG-16, which was obtained from the soil samples collected from the oilfields of Krishna-Godavari basin in India. This genomic resource can provide insights into the pathways and mechanisms of hydrocarbon degradation and potentially aid in bioremediation applications.
Blood samples collected in the field for isolating DNA suitable for molecular analysis need speci... more Blood samples collected in the field for isolating DNA suitable for molecular analysis need special care in their storage and handling. In this article, we describe a simple method for the isolation of good-quality high-molecular-weight DNA that does not require low temperature conditions during collection, storage, and/or transportation of blood samples. This method involves smearing small aliquots of blood onto clean slides and air drying them at room temperature. The slides with blood smears can then be transported or stored at room temperature and still serve as a very good source of high-molecular-weight DNA. Genomic DNA from these samples can be extracted by organic phase separation (phenol-chloroform extraction) after lysis. The DNA thus obtained is of high quality and yields DNA fingerprints qualitatively similar to those prepared from corresponding control DNA isolated from frozen blood samples. Needing minimal facilities at field sites, the method is very convenient for conducting RFLP analysis of wild/field populations for demographic, behavioral, and ecologic studies.
Cultivated rice is a high-volume, low-value cereal crop providing staple food to more than 50% of... more Cultivated rice is a high-volume, low-value cereal crop providing staple food to more than 50% of the world populace. A small group of rice cultivars, traditionally produced on the Indo-Gangetic plains and popularly known as Basmati, have exquisite quality grain characteristics and are a prized commercial commodity. Efforts to improve the yield potential of Basmati have led to the development of several crossbred Basmati-like cultivars. In this study we have analysed the genetic diversity and interrelationships among 33 rice genotypes consisting of the traditional Basmati, improved Basmati-like genotypes developed in India and elsewhere, American long-grain rice and a few non-aromatic rice using a DNA marker-based approach - fluorescent-amplified fragment length polymorphism (f-AFLP). Using a set of nine primer-pairs we scored a total of 10,672 data points over all of the genotypes in the size range of 75-500 bp. The scored data points corresponded to a total of 501 AFLP markers (putative loci/genome landmarks) of which 327 markers (65%) were polymorphic. The f-AFLP marker data, which were analysed using different clustering algorithms and principal component analysis, indicate that: (1) considerable genetic variability exists in the analysed genotypes; (2) traditional Basmati cultivars could be distinctly separated from the crossbred Basmati-like genotypes as well as from the non-aromatic rice; (3) the crossbred Basmati-like cultivars from the subcontinent and elsewhere are genetically very distinct; (4) f-AFLP-based clustering, in general, conforms to the putative pedigree of the improved genotypes. Moreover, analysis to ascertain the scope of AFLP as a technique suggests that the polymorphism revealed by three selective primer-pair combinations is sufficient to obtain reliable estimates of genetic diversity for the type of material used in this study. However, its utility to identify group-specific DNA markers was discounted due to a low frequency of observed group-specific discrete markers.
The genus Oryza to which cultivated rice belongs has 22 wild species. Seventy-seven accessions of... more The genus Oryza to which cultivated rice belongs has 22 wild species. Seventy-seven accessions of 23 Oryza species, five related genera, and three outgroup taxa were fingerprinted using amplified fragment length polymorphism (AFLP). A total of 1191 polymorphic markers were obtained using five AFLP primer combinations. AFLP data were analyzed to study species relationships using different clustering algorithms, and the
tau-Crystallin is a taxon-restricted crystallin found in eye lenses of reptiles and a few avian s... more tau-Crystallin is a taxon-restricted crystallin found in eye lenses of reptiles and a few avian species but presumably absent in mammals. The level of tau-crystallin in the lens varies among different species. In the crocodile lens, it is the least abundant crystallin and is present in trace amounts. We present a method for cloning, overexpression, and purification of crocodilian tau-crystallin utilizing a combination of gel filtration and ion-exchange chromatography yielding an extremely purified protein. The protein gets profusely expressed resulting in a fairly high yield and exists as a monomeric entity of 47.5 kDa molecular mass. The recombinant tau-crystallin exists in a properly folded native state as probed by circular dichroism and fluorescence spectroscopy and exhibits enolase activity.
Individual-specific DNA fingerprints of crocodilians were obtained by the use of Bkm-2(8) probe. ... more Individual-specific DNA fingerprints of crocodilians were obtained by the use of Bkm-2(8) probe. Pedigree analyses of Crocodylus palustris, C. porosus and Caiman crocodilus revealed that the multiple bands (22-23 bands with Aludigest) thus obtained were inherited stably in a Mendelian fashion. Unique fingerprints permitted us to identify individuals, assign parentage, and reconstruct the DNA profile of a missing parent. Average band sharing between unrelated crocodiles was found to be 0.37. Band sharing between animals of known pedigrees increased predictably with relatedness and provided a basis for distinguishing relatives from non-relatives. Similar results obtained in other species/genera, using the same probe, suggest that this approach may be applicable to all species of crocodilians, and could facilitate genetic studies of wild and captive populations.
Uploads
Papers by Ramesh Aggarwal