Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human calicivirus (HuCV), a common cause of mild gastroenteritis in the general population, produces a prolonged diarrheal illness in pediatric recipients of small intestinal transplant (IT). By use of reverse-transcription polymerase chain reaction to detect the viral
RNA polymerase
gene in stool and tissue from gastrointestinal biopsies, 5 pediatric IT recipients with high-volume diarrhea were diagnosed with HuCV
enteritis
. Histopathologic findings of biopsies obtained at different gastrointestinal sites were studied retrospectively to identify characteristic features of HuCV
enteritis
and to distinguish these changes from rejection. Controls were 8 pediatric IT recipients with high-volume diarrhea but negative HuCV reverse-transcription polymerase chain reaction assays during the same time period. All HuCV biopsies showed increased mononuclear infiltrates in the lamina propria and villous blunting. Reactive disarray of surface epithelial cells and increased apoptosis in the surface epithelium and superficial lamina propria were characteristic features (in 4/5 patients). Increased glandular apoptosis was also present in 3/5 patients. Findings were more pronounced in jejunal allograft than ileal allograft, and were present in both graft and native bowel. In comparison with the control group, the architectural changes, surface epithelial reactive changes, and superficial apoptosis were characteristic of HuCV
enteritis
, while the presence of glandular apoptosis was a feature shared with cases of mild acute cellular rejection HuCV may cause severe allograft dysfunction after pediatric IT. Calicivirus infection has clinical and histological features that overlap with allograft rejection. Knowledge of the characteristic histologic features of HuCV
enteritis
aids in differential diagnosis.
...
PMID:Calicivirus infection in pediatric small intestine transplant recipients: pathological considerations. 1549 91
Duck
enteritis
virus (DEV) is classified to the family Herpesviridae, but has not been grouped into any genus so far. Four overlapped fragments were amplified from the DEV genome with polymerase chain reaction (PCR). The assembled length of the four fragments was 6,202 bp, which contained the genes encoding unique long (UL) 24, thymidine kinase (TK) and glycoprotein H (gH) proteins. The UL24 overlapped with TK by 64 nucleotides (nt), in a head-to-head transcription orientation, and the TK and gH had the same transcription orientation. The comparison of amino acid sequences of these 3 deduced DEV proteins with other 12 alphaherpesviruses displayed 5 highly conserved sites in the UL24, as well as another 5 consensus regions in the TK and 4 consensus regions in the gH. The
RNA polymerase II
transcriptional control elements were identified in all the UL24, TK and gH of DEV. These elements included core promoters, TATA motifs and polyadenylation sites. Phylogenetic analysis for the genetic classification of DEV in the Alphaherpesvirinae subfamily with other 12 alphaherpesviruses was computed. The result showed that DEV was more closely related to avian herpesviruses, except infectious laryngotracheitis virus (ILTV), than to other alphaherpesviruses. Conclusively, according to the phylogenesis-based analysis and the homology comparison of functional domains of UL24, TK and gH, DEV should be classified to a separate genus of the Alphaherpesvirinae subfamily in the family Herpesviridae.
...
PMID:Characterization of the genes encoding UL24, TK and gH proteins from duck enteritis virus (DEV): a proof for the classification of DEV. 1697 38
Here, we first present unique short (US)3, US4, and US5 gene sequences, with analysis, of duck
enteritis
virus (DEV) vaccine strain C-KCE. The assembled sequence comprises 5,742 nucleotides, which are amplified from the DEV genome by single oligonucleotide-nested polymerase chain reaction with primers designed according to our previous acquired sequence deposited in GenBank (accession no. EF619046). The predicted gene arrangement is colinear with the alphaherpesvirus herpes simplex virus within the US region. The N-glycosylated sites, signal peptide, transmembrane helices,
RNA polymerase II
transcriptional control elements, and polyadenylation signal, were predicted with network prediction programs. Phylogenetic analysis of the three putative proteins revealed that they had a close evolutionary relationship with the subfamily of Alphaherpesvirinae.
...
PMID:Molecular analysis of duck enteritis virus US3, US4, and US5 gene. 1915 25
Based on microarray hybridization, a diagnostic test for coronavirus infection was developed using eight coronavirus strains: canine coronavirus (CCoV), feline infectious peritonitis virus (FIPV), feline coronavirus (FCoV), bovine coronavirus (BCoV), porcine respiratory coronavirus (PRCoV), turkey
enteritis
coronavirus (TCoV), transmissible gastroenteritis virus (TGEV), and human respiratory coronavirus (HRCoV). Up to 104 cDNA clones of eight viruses were obtained by reverse transcription PCR with different pairs of primers designed for each virus and a pair of universal primers designed for the
RNA polymerase
gene of coronavirus. Total RNAs extracted from virus were reverse transcribed, followed by multi-PCR amplification and labeled with Cy3-dCTP. All labeled cDNAs and prepared gene chips were subjected to specific hybridization. The results showed that extensive cross-reaction existed between CCoV, FCoV, FIPV, TGEV and PRCoV, while there was no cross-reaction between BCoV, TCoV and HRCoV. The ultimate specific gene chip was developed with DNA fragments reamplified from the chosen recombinant plasmids without cross-reaction between different coronaviruses. The hybridization results showed that this gene chip could specifically identify and distinguish the eight coronaviruses and the sensitivity of the chip may be 1,000x more sensitive than PCR, indicating that it can be used for the diagnosis of eight coronavirus infections at the same time.
...
PMID:Comprehensive detection and identification of seven animal coronaviruses and human respiratory coronavirus 229E with a microarray hybridization assay. 1995 14
Periodic monitoring of poultry flocks in the United States via molecular diagnostic methods has revealed a number of potential enteric viral pathogens in continuous circulation in turkeys and chickens. Recently turkey integrators in the Southeastern United States and Arkansas experienced an outbreak of moderate to severe
enteritis
associated with turkey enteric coronavirus (TCoV), and numerous enteric samples collected from turkey flocks in these areas tested positive for TCoV via real-time reverse-
transcriptase
PCR (RRT-PCR). This report details the subsequent sequence and phylogenetic analysis of the TCoV spike glycoprotein and the comparison of outbreak-associated isolates to sequences in the public database. TCoVs investigated during the present outbreak grouped geographically based upon state of origin, and the RRT-PCR assay was a good indicator of subsequent seroconversion by TCoV-positive turkey flocks.
...
PMID:Investigating turkey enteric coronavirus circulating in the Southeastern United States and Arkansas during 2012 and 2013. 2505 40
Feline calicivirus (FCV) is a major pathogen of cats associated with either respiratory disease or systemic disease, but its possible role as an enteric pathogen is neglected. Using RT-PCR, the RNA of FCV was identified in 25.9% (62/239) of stools of cats with
enteritis
and in 0/58 (0%) of cats without diarrhoea or other clinical signs. Isolates of enteric origin were obtained and a large 3.2-kb portion of the genome was sequenced, encompassing the 3' end of the
RNA polymerase
, the capsid protein precursor and the minor capsid protein. Also, the complete genome sequence of one such strain, the 160/2015/ITA, was determined. Upon sequence analysis, the enteric viruses were found to be genetically heterogeneous and to differ from each other and from isolates of respiratory origin. The enteric isolates were found to be more resistant to low pH conditions, to trypsin and to bile treatment than respiratory isolates. Overall, these findings are consistent with the hypothesis that some FCVs may acquire enteric tropism and eventually act as enteric pathogens. Whether this enteric tropism is maintained stably and whether it may affect, to some extent, the ability of the virus to trigger the classical and/or hypervirulent forms of disease should be assessed. Also, FCV should be included in the diagnostic algorithms of enteric diseases of cats to gain further information about FCV strains displaying enteric pathotype.
...
PMID:Identification of feline calicivirus in cats with enteritis. 3235 95
