Single-strand Confirmation Polymorphism Research Articles

Prl and B4GALT-1 gene polymorphism and their association with milk production traits in crossbred cattle of Kerala

The main objective of present study was to explore the genetic variation in exon 3 of PRL (185 bp) and exon-2 of B4GALT-1 (256 bp) locus and analyze their associations with milk production traits. The study was conducted on 200 crossbred cattle distributed in different farms under Kerala Veterinary and Animal Sciences University and field centres of ICAR-FPT scheme, Mannuthy. Polymorphism of both the genes was detected by Single Strand Confirmation Polymorphism (PCR-SSCP). Similar banding pattern were noticed in exon-3 region of PRL, population was found to be monomorphic, indicating conserved nature of this fragment in the screened crossbred cattle population of Kerala. Two unique band patterns were detected in 256 bp fragment of B4GALT-1. Sequencing revealed a nonsynonymous single nucleotide variation in c.521T>C in exon 2 of B4GALT-1, resulted in an amino acid substitution of methionine to threonine due to a codon change of ATG to ACG. Different genetic variants of B4GALT-1 was significantly associated with 305 days milk yield and protein percent. The study indicates the existence of genetic variability in B4GALT-1 gene on crossbred cattle population of Kerala and suggests a scope of considering genetic variants of B4GALT-1 gene in selection of cattle for higher milk production.

Identification of novel single-nucleotide polymorphism at exon1 and 2 region of B4GALT1 gene and its association with milk production traits in crossbred cattle of Kerala, India

Beta 1,4-galactosyltransferase-I gene (B4GALT1) is an important candidate gene for milk performance traits, encodes catalytic part of lactose synthesis. Main objectives of present study is identification of single-nucleotide polymorphism in exon 1 and 2 region of B4GALT1 and to find significant association of genetic variants with milk performance traits in crossbred cattle of Kerala. The study was conducted on two hundred crossbred cattle maintained at various farms of Kerala Veterinary and Animal Sciences University, India. Genomic DNA was isolated and polymorphism of gene were detected by Single Strand Confirmation Polymorphism. Genotype and allelic frequency were estimated. Chi-square analysis revealed that screened population is under Hardy Weinberg equilibrium. Nucleotide sequence analysis revealed a novel non-synonymous single-nucleotide variation (T94A) in exon 1 and a non-synonymous mutation of T97C in exon 2 of B4GALT1 gene in the screened cattle population. Association analysis of genetic variants was done with milk production traits and major non-genetic factors using fixed models. Different genetic variants of B4GALT1 was significantly associated with 305 days milk yield, lactose, protein percent. Study indicates existence of genetic variability in B4GALT1 gene on crossbred cattle of Kerala and suggests a scope of considering genetic variants of B4GALT1in selection strategies.

Single nucleotide polymorphism at cluster of differentiation 14 (CD14) gene and its association with fertility traits in crossbred cattle of Kerala

Cluster of differentiation 14 (CD14) gene is an important molecule for innate unity and found to be significantly associated with fertility traits in cattle. The objectives of present study were to detect the single nucleotide polymorphisms (SNPs) in exon 1 region of CD14 gene and to evaluate the association of genetic variants with fertility traits viz. Service period and Age at First Calving in crossbred cattle of Kerala. The study was conducted on two hundred and sixteen crossbred cattle maintained at various farms of Kerala Veterinary and Animal Sciences University. Genomic DNA was isolated and polymorphisms of gene were detected by Single Strand Confirmation Polymorphism. Two SNPs, c.445T>G and c.432C>T were detected in exon 1 coding region of CD14 gene. The frequencies of CC and CT genotypes were 0.82 and 0.18 in the population. In addition, a significant association between SNPs and service period was observed in crossbred cattle population under study. Crossbred cattle with CT diplo types showed lower values for service period than those with CC diplo types. The association of CD14 gene with these traits emphasizes the importance of bovine CD14 as a candidate gene for marker assisted selection for fertility traits in crossbred cattle

PCR-SSCP and Sequencing Analysis For Studying Leptin Gene Polymorphism and Its Association with Reproductive Status of Egyptian Buffalo

Leptin gene is one of the potential genes involves intricately in metabolism and growth of animals. Leptin has myriad effect on tissues and endocrine system that ultimately lead to the whole body energy metabolism and has major impact on performance and wellbeing of livestock species. Owing to have key biological features, leptin is one of themost significant candidate gene markers for Marker assisted selection (MAS) studies. This study was performed to identify leptin gene polymorphism and its relation to reproductive status in Egyptian buffaloes. Total of 150 buffaloes were subjected to ultrasound examination for evaluation of reproductive status. Blood samples were collected from all animals and were stored at -20°C till DNA isolation. Amplification of specific fragment 422bp (intron 2) of leptin gene was performed by polymorphism chain reaction (PCR). Single strand confirmation polymorphism (SSCP) was performed on PCR amplicons. Purified PCR amplicons of different electrophoresis patterns were sequenced in both directions using two primers. Sequences results were analyzed using NCBI BLASTn and BioEdit Sequence Alignment software.Two variants(AA and BB) of leptin gene were detected.Genotype AA represented by 64% in fertile buffalo, while its distribution among infertile one was 36%.Genotype BB, was equally distributed by 50% in both fertile and infertile animals. Sequence analysis of both normal and polymorphic one showed different singlenucleotide polymorphisms (SNPs) in leptin gene, but statistically these SNPs had no correlation with reproductive status (fertile or infertile) of examined buffalo.

Impact of Peri-Transplant Rituximab and Host/Donor Fc Receptor Polymorphisms for Patients with Relapsed or Refractory CD20+ B-Cell Malignancies

We previously reported results of allogeneic hematopoietic cell transplantation (HCT) in 93 older or medically unfit patients with non-Hodgkin's lymphoma (NHL) or chronic lymphocytic lymphoma (CLL) after conditioning with fludarabine (FLU) and 2-3 Gy total body irradiation (TBI). Three-year survival ranged from 45% to 52% depending on the underlying histology and disease stage. The major complication in those studies was disease relapse (24% at 1 year). The current prospective study in 63 NHL patients tested the hypothesis that disease relapse could be reduced, and overall survival (OS) improved, by peri-transplant rituximab (RTX). Treatment (Figure 1) consisted of RTX (375 mg/m²/day) on days -3, +10, +24 and +38 in addition to 2-3 Gy TBI ± FLU (30 mg/m² × 3 days). As pharmacokinetics (PK) and optimal dosing of RTX in allogeneic HCT are undefined, we collected PK data to optimize RTX dosing. RTX levels were assayed with murine anti-idiotype monoclonal antibody (18C9) binding to RTX. Median therapeutic RTX levels of >25 μg/mL were achieved through day 84 after HCT, with peak median level of 200.5 μg/mL at day 64. RTX levels were not correlated with relapse or graft-vs-host disease (GVHD) rates. NHL patients had significantly higher median RTX levels than CLL patients (day 84, p=0.003, Figure 2). We collected data on donor and recipient FCγRIIIa receptor polymorphisms expressed predominantly on natural killer cells, thought to affect responsiveness to RTX. This was done to identify patients or donor/recipient pairs most likely to benefit from peri-transplant RTX. FCγRIIIa polymorphisms were determined by PCR and single-strand confirmation polymorphism (SSCP) from DNA isolated from patient cells. Recipients with F/F and V/F FCγRIIIa polymorphisms experienced higher relapse rates compared to recipients with V/V polymorphism (p=0.15). Overall, almost a third of pre-HCT F/F patients relapsed. Probably due to small numbers, no difference in outcome was found with V/V donor pairing for these patients. Results are shown in Figure 3. Relapse rates at 5 years were similar among RTX-treated patients and historical controls (32% vs, 28%; P=0.94). RTX-treated patients experienced higher 5-year OS and progression-free survival; (47% vs, 38%; P=0.13) (41 vs, 32%; P=0.12), respectively, but none of the differences was statistically significant. Non-relapse mortality was lower among RTX-treated patients versus controls (27% vs, 40; P=0.05), respectively; incidences of grade 2-4 acute GVHD and grade 3-4 acute GVHD were similar (60% vs, 57%, 13% vs. 17%); and 5-year chronic GVHD was higher among RTX-treated patients (62% vs, 47%). These findings suggest that for patients with relapsed or refractory NHL, peri-transplant RTX neither reduced relapse nor improved OS or other post-HCT parameters. The role of donor-recipient pairing by FCγRIIIa polymorphisms in outcome remains to be determined.

Human Pegivirus in Patients with Encephalitis of Unclear Etiology, Poland.

Human pegivirus (HPgV), previously called hepatitis G virus or GB virus C, is a lymphotropic virus with undefined pathology. Because many viruses from the family Flaviviridae, to which HPgV belongs, are neurotropic, we studied whether HPgV could infect the central nervous system. We tested serum and cerebrospinal fluid samples from 96 patients with a diagnosis of encephalitis for a variety of pathogens by molecular methods and serology; we also tested for autoantibodies against neuronal antigens. We found HPgV in serum and cerebrospinal fluid from 3 patients who had encephalitis of unclear origin; that is, all the markers that had been tested were negative. Single-strand confirmation polymorphism and next-generation sequencing analysis revealed differences between the serum and cerebrospinal fluid-derived viral sequences, which is compatible with the presence of a separate HPgV compartment in the central nervous system. It is unclear whether HPgV was directly responsible for encephalitis in these patients.

Genetic diversity of Cahi DRB and DQB genes of caprine MHC class II in Sirohi goat

The objective of this study was to assess the genetic diversity of the Sirohi goat for DQB and DQB1 loci, and to study their association with antibody response induced by the Peste des petits ruminants (PPR) vaccine. A total of 360 Sirohi kids were studied using single stranded confirmation polymorphism (SSCP) followed by polymerase chain reaction sequence-based typing (PCR-SBT) for DQB and DQB1 diversities. The competitive enzyme-linked immuno-sorbent assay (C-ELISA) was used to evaluate immune response post-PPR vaccination. Study revealed rich diversity of major histocompatibility complex (MHC) region in goat. A total of 18 DQB and 15 DQB1 alleles were obtained which were new. Alleles DRB*0104 and DQB1*0101 were the most common. The approach of SSCP combined with PCR-SBT reflects cost-effective and most powerful approach to decipher the genetic diversity in complex MHC region. Study revealed variation in DQB and DQB1 genes in Sirohi flock along with high Wu-Kabat index. A total of 16 of the 89 amino acid residue sites in DQB and 19 of 86 residue sites in DQB1 had more than three amino acid substitutions. Positive evolutionary selection was evident in Sirohi for MHC region. Nonsignificant association of DQB and DQB1 genotypes with PPR virus (PPRV) vaccine response revealed complexity of the phenotype and importance of other factors for vaccine response. Rich diversity of DQB and DQB1 genes reflects the fitness of the population and importance of this locus for future selection programmes.

16S rRNA Gene Primer Validation for Bacterial Diversity Analysis of Vegetable Products

High-throughput sequencing of the 16S rRNA gene enhances understanding of microbial diversity from complex environmental samples. The 16S rRNA gene is currently the most important target in bacterial evolution and ecology studies, particularly for determination of phylogenetic relationships among taxa, exploration of bacterial diversity in a given environment, and quantification of the relative abundance of taxa at various levels. However, some parts of the conserved region of the bacterial 16S rRNA gene are similar to the conserved regions of plant chloroplasts and eukaryotic mitochondria. Therefore, if DNA contains a large amount of nontarget DNA, this nontarget DNA can be coamplified and consequently produce useless sequence reads. We experimentally assessed the primer pair 335f/769r and the widely used bacterial primer pair SD (S-D-Bact-0341-b-S-17/S-D-Bact-0785-a-A-21). The primer pair 335f/769r was examined for its ability to amplify bacterial DNA in plant and animal feed samples by using the single-strand confirmation polymorphism method. In our present study, these primer pairs were validated for microbial community structure analysis with complex food matrices by using next-generation sequencing. The sequencing results revealed that the primer pair 335f/769r successfully resulted in fewer chloroplast and mitochondrial sequence reads than generated by the universal primer pair SD and therefore is comparatively suitable for metagenomic analyses of complex food matrices, particularly those that are rich in plant DNA. Additionally, some taxonomic groups were missed entirely when only the SD primer pair was used.

Genomic and Transcriptomic Resources for Marker Development in Synchytrium endobioticum, an Elusive but Severe Potato Pathogen.

Synchytrium endobioticum is an obligate biotrophic fungus that causes wart diseases in potato. Like other species of the class Chytridiomycetes, it does not form mycelia and its zoospores are small, approximately 3 μm in diameter, which complicates the detection of early stages of infection. Furthermore, potato wart disease is difficult to control because belowground organs are infected and resting spores of the fungus are extremely durable. Thus, S. endobioticum is classified as a quarantine organism. More than 40 S. endobioticum pathotypes have been reported, of which pathotypes 1(D1), 2(G1), 6(O1), 8(F1), and 18(T1) are the most important in Germany. No molecular methods for the differentiation of pathotypes are available to date. In this work, we sequenced both genomic DNA and cDNA of the German pathotype 18(T1) from infected potato tissue and generated 5,422 expressed sequence tags (EST) and 423 genomic contigs. Comparative sequencing of 33 genes, single-stranded confirmation polymorphism (SSCP) analysis with polymerase chain reaction fragments of 27 additional genes, as well as the analysis of 41 simple sequence repeat (SSR) loci revealed extremely low levels of variation among five German pathotypes. From these markers, one sequence-characterized amplified region marker and five SSR markers revealed polymorphisms among the German pathotypes and an extended set of 11 additional European isolates. Pathotypes 8(F1) and 18(T1) displayed discrete polymorphisms which allow their differentiation from other pathotypes. Overall, using the information of the six markers, the 16 isolates could be differentiated into three distinct genotype groups. In addition to the presented markers, the new collection of EST from genus Synchytrium might serve in the future for molecular taxonomic studies as well as for analyses of the host-pathogen interactions in this difficult pathosystem. [Formula: see text] Copyright © 2017 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license .

Genetic Polymorphisms of ABCB1 Gene in Patients Having Resistance to Clopidogrel

Objectives: We sought to study the genetic polymorphisms of ABCB1 gene in post percutaneous coronary intervention (PCI) patients with clopidogrel resistance. Background: Dual antiplatelet therapy (DAPT) is a guideline mandated therapy for patients who undergo PCI. However there exists interindividual variability in drug response to the antiplatelet agents leading to recurrent thrombotic events. Genetic polymorphisms of ABCB1 gene are one among the causes of this interindividual variability. Methods: It is a single center prospective trial and includes221 patients who underwent PCI and were given clopidogrel as a part of DAPT. Platelet reactivity was assessed by grading of platelet activity index (PAI) and considered as high on treatment platelet reactivity (HTPR), i.e., clopidogrel resistance if PAI > 5. Genetic analysis for ABCB1 C-T polymorphism was done by polymerase chain reaction (PCR) and single strand confirmation polymorphism (SSCP) analysis. Results: Amongst 221 patients, 37 (16.7%) patients had ABCB1 C-T polymorphisms. The mean PAI value in these patients was 5.1 ± 3.0, while it was 3.5 ± 2.5 in those patients without ABCB1 C-T polymorphisms (p = 0.004). Compared to patients without HTPR, the occurrence of primary endpoints was not significantly increased in patients with HTPR except for stent thrombosis which was significantly high in patients with HTPR. HTPR was also associated with ABCB1 C-T polymorphisms (p = 0.04), but these polymorphisms did not predict the clinical outcome. Conclusions: There was significant prevalence of ABCB1 C-T polymorphisms in patients with HTPR. However it was not an independent risk factor for clopidogrel resistance and also it did not influence adverse cardiovascular outcomes.

Polymorphism in the SCD gene is associated with meat quality and fatty acid composition in Iranian fat- and thin-tailed sheep breeds

The enzyme stearoyl-coenzyme A-desaturase (SCD) has been proposed as a key regulator for fat content and fatty acid composition of meat. In this study, a DNA sequence and single-strand confirmation polymorphism analysis were performed in an attempt to investigate the relationship between variation within the SCD gene and fatty acid profiles, physicochemical composition, and the quality characteristics of longissimus dorsi (LD) muscle in two traditional fat- (Chall) and thin- (Zel) tailed Iranian sheep breeds. Only one previously reported SNP (g.379A>T) located in the 5′ untranslated region of the SCD gene was observed. Two previously reported allelic variants, SCD-1 and SCD-2, constituted two previously reported genotypes, “A” and “B”. Based on t-test, no allelic and genotypic frequency differences were observed between Chall and Zel breeds. Lambs with genotype “B” significantly had lower total saturated fatty acid (SFA) level (p<0.05) and more linoleic (p<0.02), arachidonic (p<0.002), and eicosapentaenoic (EPA) (p<0.001) acids and total poly-unsaturated fatty acid (PUFA) (p=0.002) contents and PUFA: SFA ratio (p<0.004) than those with genotype “A”. Meat color of the genotype “B” lambs was lower for a* (p<0.05) and higher for L* (p<0.08) compared to the genotype “A” ones. There were some interactions between breed and SCD gene in terms of palmitic acid (p<0.04), cooking loss (p<0.05), and protein content (p<0.03) of LD muscle. SCD locus explained 17.3%, 15.3%, 13%, and 12% of the phenotypic variation in terms of EPA and arachidonic acid, and PUFA contents and PUFA: SFA ratio, respectively. Interestingly, the results of the correlation analyses showed the significant negative correlations between healthy fatty acid indices (PUFA and PUFA: SFA) and meat color measures of a* and b* (r=−0.26 to r=−0.40, p<0.05) and the significant positive correlations between n–6: n–3 PUFA, one of the main harmful fatty acid indices, and a* (r=0.41, p<0.01) and b* (r=0.27, p<0.05) values which are coordinated with the effect of SCD genotypes on fatty acid composition and color of meat. So, both fatty acid composition and meat color traits should be considered in marker-assisted selection based on SCD gene. Overall, it seems that the genotype “B” of SCD gene is a more desirable genotype when selecting lambs in terms of both fatty acid composition and color of meat, because selecting this genotype would result in higher proportion of healthy fatty acids, lower proportion of harmful fatty acids, and better meat color.

Characterization of Exon4 of FSTN Gene and its Association with Growth Traits in PD-1 Broiler Chicken

Follistatin play vital role in biological processes which includes cell proliferation, differentiation, and skeletal muscle growth. The present study was carried out to study polymorphism of exon4 of follistatin gene and its association with body weight in PD-1, a broiler line of chicken. A product of 225 bp of exon-4 was amplified and structural variability was studied using polymerase chain reaction, single strand confirmation polymorphism and sequencing method. This study revealed that the FSTN gene was monomoprphic at exon4. Growth data was also analyzed, the growth performance of male and female differed significantly at six week of age.

Genetic polymorphism and expression analysis of leptin gene in rabbit

Leptin plays an important role in the regulation of feed intake, energy metabolism, growth and reproduction of rabbit. We used the polymerase chain reaction- single stranded confirmation polymorphism (PCR-SSCP) technique to screen for DNA polymorphisms of the leptin gene in 150 New Zealand White rabbits. In all the New Zealand White rabbits, we amplified different regions of the leptin gene. PCR-SSCP of all these fragments revealed monomorphic pattern. All the amplified fragments of leptin gene were monomorphic, which is in contradiction to many earlier reports of mammalian species. All the fragments were sequenced and compared with the available sequences of different species. The nucleotide sequence analysis indicated that the per cent similarity of leptin gene fragments of New Zealand White rabbit with rat, mouse, cattle and pig was 79.6–87.5%. At various places, the amino acids and protein were different in New Zealand White rabbit as compared to rat, mouse, cattle and pig. For relative quantification, total RNA was isolated from liver tissues collected at 2 different stages of growth i.e. pre-weaning and post-weaning. Our results indicate no significant differences in the mRNA expression of leptin between two different stages of growth.

Single nucleotide polymorphism of CYP3A4 intron 2 and its influence on CYP3A4 mRNA expression and liver enzymatic activity in human liver.

In adult liver, CYP3A4 plays an important role in the metabolism of a wide range of endogenous and exogenous compounds. To investigate whether there is a single nucleotide polymorphism (SNP) of CYP3A4 intron 2 in the liver and its effects on the mRNA expression and enzymatic activity of CYP3A4, genomic DNA was extracted from 96 liver tissue samples obtained from patients who had undergone liver surgery. An SNP of CYP3A4 intron 2 was identified by polymerase chain reaction (PCR)-single-strand confirmation polymorphism and DNA sequencing. The mRNA expression of CYP3A4 was determined by the fluorescence quantitative PCR technique. The enzymatic activity of CYP3A4 was measured using erythromycin and testosterone as probe substrates. Twelve patients were found to have the SNP/T4127G CYP3A4 within intron 2. The mRNA levels of CYP3A4 in wild-type and SNP/T4127G samples were 2.62±1.09 and 2.79±1.63, respectively (P>0.05). Erythromycin N-demethylase activity in wild-type and SNP/T4127G samples were 121.2±32.8 and 124.7±61.6 nmol·mg(-1)·min(-1), respectively (P>0.05). The activity of testosterone 6β-hydroxylase was significantly different between wild-type (648±173 pmol·mg(-1)·min(-1)) and SNP/T4127G samples (540±196 pmol·mg(-1)·min(-1); P<0.05). In conclusion, the SNP/T4127G of CYP3A4 intron 2 exists in the liver. This SNP does not affect the mRNA expression of CYP3A4 but significantly decreases the hepatic microsomal testosterone 6β-hydroxylase activity of CYP3A4. Furthermore, this study indicates that the appropriate selection of probe substrates is very important in studying the relationship between the genotype and phenotype of CYP3A4.

34. BRAF V600E mutation detection in cell blocks of thyroid fine needle aspiration cytology samples

Introduction BRAF mutation c.1799T>A, p.Val600Glu (or V600E) in thyroid neoplasms is exclusively associated with papillary carcinoma (PTC) or anaplastic thyroid carcinoma. Demonstration of BRAF mutation has been suggested as a supplement to confirmation of PTC in cytology material. Recently a V600E mutation specific antibody has been developed. We aim to assess the feasibility of testing for BRAF V600E mutational status in cytology (cell block) material. Methods 39 adequate cell blocks (CBs) and 18 available follow-up histology cases were tested by immunohistochemistry (IHC) (clone VE1, 1:400, Spring Biosciences, Pleasanton, California, using Optiview amplification kit) and molecular methods (castPCR: Competitive Allele Specific Taqman PCR, Life Technologies, CA, USA), followed by single-strand confirmation polymorphism (SSCP) if required. All cell blocks tested included H+E sections to confirm adequacy of abnormal cells. Any fine granular cytoplasmic staining in abnormal cells was considered as a positive IHC result. DNA content on CBs ranged from 2.4–54.1 ng/μL and was considered adequate for both molecular methods. Results Tabled 1 CYTOLOGY (n=39) IHC POSNEG MolecularPOS172 sensitivity =89.5% NEG416 specificity =80.0% HISTOLOGY (n=18) IHC POSNEG MolecularPOS130sensitivity =100% NEG14specificity =80.0% CYTOLOGY AND HISTOLOGY CORRELATION (n=18) Cytology BRAF(any method) POSNEG Histology BRAF (any method) POS104sensitivity=71.4% NEG04specificity =100% Open table in a new tab Conclusions 1.BRAF V600E mutation assessment in thyroid cell block cytology material is feasible although the role in diagnostic algorithm requires further investigation. 2.Specificity of CB BRAF positivity by both IHC and molecular methods was 100% (no false positive findings). 3.Discrepancies noted between IHC and molecular methods requires further investigation. BRAF mutation c.1799T>A, p.Val600Glu (or V600E) in thyroid neoplasms is exclusively associated with papillary carcinoma (PTC) or anaplastic thyroid carcinoma. Demonstration of BRAF mutation has been suggested as a supplement to confirmation of PTC in cytology material. Recently a V600E mutation specific antibody has been developed. We aim to assess the feasibility of testing for BRAF V600E mutational status in cytology (cell block) material. 39 adequate cell blocks (CBs) and 18 available follow-up histology cases were tested by immunohistochemistry (IHC) (clone VE1, 1:400, Spring Biosciences, Pleasanton, California, using Optiview amplification kit) and molecular methods (castPCR: Competitive Allele Specific Taqman PCR, Life Technologies, CA, USA), followed by single-strand confirmation polymorphism (SSCP) if required. All cell blocks tested included H+E sections to confirm adequacy of abnormal cells. Any fine granular cytoplasmic staining in abnormal cells was considered as a positive IHC result. DNA content on CBs ranged from 2.4–54.1 ng/μL and was considered adequate for both molecular methods. 1.BRAF V600E mutation assessment in thyroid cell block cytology material is feasible although the role in diagnostic algorithm requires further investigation. 2.Specificity of CB BRAF positivity by both IHC and molecular methods was 100% (no false positive findings). 3.Discrepancies noted between IHC and molecular methods requires further investigation.

Simultaneous Occurrence of Angioimmunoblastic T-cell Lymphoma and Plasma Cell Leukemia

A 73-yr-old man was evaluated for fever and multiple palpable nodules in his neck and inguinal areas. Biopsy of a cervical lymph node demonstrated polymorphic infiltrates including T-cells with abundant clear cytoplasm (clear cells), follicular dendritic cells, and plasma cells in the background of prominent arborizing high endothelial venules. The involved lymph node had typical histological and immunohistochemical properties characteristic of angioimmunoblastic T-cell lymphoma (AITL), except for the absence of CD10 expression. Lymphoplasmacytic lymphoma was excluded. A staging computed tomographic scan showed generalized lymphadenopathy in his chest, abdomen, and pelvis, as well as hepatosplenomegaly. Laboratory findings demonstrated the presence of leukocytosis (30.5×109/L). A peripheral blood (PB) smear revealed rouleaux formations and numerous circulating plasma cells, with plasmacytoid lymphocytes accounting for 25% of all nucleated cells. Protein electrophoresis and immunofixation studies of serum indicated IgMκ monoclonal gammopathy (IgM level, 53.8 g/L; normal range, 0.4-2.3 g/L). A bone marrow (BM) biopsy revealed 80% hypercellularity with focal clusters of CD3+ malignant T-cells and diffuse CD138+ clonal plasma cells at proportions of 10% and 30%, respectively (Fig. 1). The CD3+ T-cells were medium-sized lymphoid cells with moderate amounts of clear cytoplasm and slightly indented nuclei with coarse and condensed chromatin. In concordance with the monoclonal gammopathy found in the serum, immunohistochemical analysis of mixed plasma cells revealed a pattern restricted to κ light chain reactivity. Rare scattered cells were found positive for Epstein-Barr virus (EBV) by using in situ hybridization. Analysis for the expression of CD20 indicated relatively few mature B-cells. Fig. 1 Histologic findings of the bone marrow biopsy. (A) Bone marrow biopsy showed nodular lymphocytic infiltrates with malignant cells (Hematoxylin and Eosin, ×400). (B) The malignant cells were positive for CD3 (×400). (C, D) Plasma cells ... Flow cytometry analysis of circulating lymphocytes revealed a B-cell population expressing CD19, but the cells lost CD20 without surface Ig expression (25.12% of total events). Instead, these cells intensely expressed CD38 with a fraction of the cells also expressing CD138. Almost all CD38+ cells exhibited cytoplasmic κ restriction. In addition to the clonal plasma cells, T-cells that co-expressed CD3 and CD4 were also found to be positive for the known T-cell antigens CD2 and CD5 but negative for CD7. Consistent with the immunohistological findings from primary lymph node, T-cells were found to be negative for CD10. T-cells with immunophenotypic variation were considered AITL cells and comprised up to 0.25% of the total gated events. Representative scatter plots of the immunophenotypic findings obtained from the flow cytometry analysis are shown in Fig. 2. Fig. 2 Flow cytometry analysis of circulating lymphocytes. (A) and (B) CD45 and side scatter (SSC) gating: T-cells were positive for CD3, and B-cells were positive for CD19. (C) and (D) The CD19+ B-cells expressed high density of CD38 and cytoplasmic monoclonal ... PCR analysis of the T-cell receptor gamma chain gene (TCRγ) demonstrated a clonal rearrangement that confirms T-cell clonality. Molecular analyses for the TCRγ rearrangement was performed through PCR by using a mixture of consensus V and J region primers. The PCR products were analyzed by nonradioactive single-strand confirmation polymorphism. Karyotypic analysis of the BM cell culture using conventional G-banding showed 46,XY in all metaphase cells analyzed (n=20). Consequently, the patient was diagnosed as having BM involvement of AITL and plasma cell leukemia (IgMκ) simultaneously. Following initial diagnosis, the patient received the first cycle of chemotherapy consisting of vincristine, doxorubicin, cyclophosphamide, and prednisolone. The patient also suffered from respiratory failure combined with septic shock and was managed at the intensive care unit. Following discharge, the patient was followed up to monitor the disease in an outpatient clinic, without further chemotherapy. AITL, one subtype of peripheral T-cell lymphoma, is frequently associated with polyclonal B-cell or plasma cell proliferation [1]. The B-cell expansion observed in AITL has been proposed to be related to the functions of neoplastic follicular helper T-cells. However, proliferation of clonal B-cells or plasma cells has rarely been reported [2, 3, 4]. We hypothesized that the clonal plasma cell population is unrelated to the patient's AITL status. In over 20% of clonal plasma cells in PB and BM, the presence of M-protein in serum and absence of EBV could support this possibility. Factors contradicting plasma cell neoplasm include the followings: negative organ impairment including hypercalcemia; renal insufficiency; anemia; bone lesions; and IgM paraprotein (non-IgG or IgA) that could be associated with a clone of lymphoplasmacytic cells [5]. However, there was no evidence of CD20+ neoplastic B-cells in BM. In conclusion, the current case emphasizes that AITL could present with marked proliferation of clonal plasma cells, thereby potentially masking underlying T-cell lymphoma. Being aware of this possible effect is clinically important when determining treatment strategies and prognostic stratification, especially in the patients with a clonal B-cell population.

K-RAS GENE MUTATIONS AT CODON 12 AND 13 IN PANCREATIC CANCER AND CHRONIC PANCREATITIS PATIENTS FROM NORTH INDIAN POPULATION

To clarify the sensitivity and the validity of K-ras point mutational analysis at codon 12 and 13 in North Indian patients with pancreatic diseases, and the possible correlation between the presence of the mutation and the histopathological findings. Sixty-five pancreatic ductal adenocarcinoma and 50 chronic pancreatitis patients were enrolled in this study. Codon 12 and 13 K-ras mutations were examined using the two step polymerase chain reaction (PCR) followed by single strand confirmation polymorphism (SSCP) and further confirmed by automated DNA sequencing. The positive percentage of K-ras in pancreatic carcinoma was 72.30% (47/65) which was significantly higher than that in the chronic pancreatitis 6.0% (3/50) (P A) and GGC to GGG (C>G) transitions at codon12 and codon13 respectively. These results draw attention to the critical role of K-ras gene mutation for the detection of early stage pancreatic cancer from chronic pancreatitis. K-ras gene mutation can be used as an important biomarker for early pancreatic cancer diagnosis, but it needs to be confirmed in large number of chronic pancreatitis patients.

Screening of the NOS3 gene identifies the variants 894G/T, 1998C/G and 2479G/A to be associated with acute onset ischemic stroke in young Asian Indians

IntroductionNitric oxide levels and NOS3 gene variants play a pivotal role in the development of vascular diseases/stroke. We attempted to determine the role of NOS3 gene variants and plasma NO levels towards the development of ischemic stroke in young Asian-Indians. MethodsOne hundred ischemic stroke patients and 200 age and sex matched control study subjects were screened for NOS3 gene variants using SSCP [single stranded confirmation polymorphism] and PCR based techniques. Plasma NO metabolites [NOx] were evaluated for the investigated population. ResultsSignificantly higher NOx levels were observed in controls [controls 56.63±25.92μmol/L, patients 34.73±19.88μmol/L, p<0.001]. The SNPs [single nucleotide polymorphisms] 894G/T, 1998C/G and 2479G/A were found associated with the disease phenotype with the most significant finding observed for 894G/T [χ2=36.68, p<0.001]. The SNPs 894G/T and 2479G/A were significantly associated with NOx levels [p=0.001]. The haplotypes TCA and TGA were overrepresented in the patient population [p<0.0001]. ConclusionTwo NOS3 SNP [894G/T and 2479G/A] variants and NOx levels are associated with ischemic stroke in young Asian Indians. These NOS3 SNPs might represent genetic risk factors for ischemic stroke in young Asian Indians. However these observations need to be confirmed by larger replicate/cross-sectional studies.

Single strand conformation polymorphism of genomic and EST-SSRs marker and its utility in genetic evaluation of sugarcane.

Sugarcane is an important crop producing around 75% of sugar in world and used as first generation biofuel. In present study, the genomic and gene based microsatellite markers were analyzed by low cost Single Strand Confirmation Polymorphism technique for genetic evaluation of 22 selected sugarcane genotypes. Total 16 genomic and 12 Expression Sequence Tag derived markers were able to amplify the selected sugarcane genotypes. Total 138 alleles were amplified of which 99 alleles (72%) found polymorphic with an average of 4.9 alleles per locus. Microsatellite marker, VCSSR7 and VCSSR 12 showed monomorphic alleles with frequency 7.1% over the average of 3.5 obtained for polymorphic locus. The level of Polymorphic Information Content (PIC) varied from 0.09 in VCSSR 6 to 0.88 in VCSSR 11 marker respectively with a mean of 0.49. Genomic SSRs showed more polymorphism than EST-SSRs markers on selected sugarcane genotypes whereas, the genetic similarity indices calculated by Jaccard's similarity coefficient varied from 0.55 to 0.81 indicate a high level of genetic similarity among the genotypes that was mainly attributed to intra specific diversity. Hence, the SSR-SSCP technique helped to identify the genetically diverse clones which could be used in crossing program for introgression of sugar and stress related traits in hybrid sugarcane.

Identification of the herbaceous host range of Apple scar skin viroid and analysis of its progeny variants

Apple scar skin viroid (ASSVd) is the type member of the genus Apscaviroid of the family Pospiviroidae and is known to cause scarring and dappling of apple fruits. The herbaceous host range of ASSVd was identified using an infectious dimeric clone. Among 13 plant species inoculated with the viroid, nine were found to be systemic hosts and three served as indicator hosts. The viroid could be transferred to these hosts through agroinoculation, rubbing of dimeric RNA transcripts, dimeric DNA plasmids and through sap inoculation. Single‐strand confirmation polymorphism (SSCP) analysis of the progeny obtained after inoculation of the infectious ASSVd clone showed the presence of four sequence variants (V1, V2, V3 and V4) which was also confirmed by sequencing. Two sequence variants (V1 and V3) were identified as dominant, representing 47·72 and 36·36% of the total progeny, respectively. The V4 sequence variant was similar to the wild type and occurred at a frequency of only 4·5% of the total progeny.