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Query: EC:2.7.7.48 (
transcriptase
)
9,479
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Interactions between immunocompetent cells require the participation of T cell antigen receptor (TCR) and the integrin lymphocyte function-associated molecule-1 (LFA-1, CD11a/CD18). These interactions are mediated by interlinking cytokines, which are important in determining the type of immune response. In the present study, we have shown that in American cutaneous leishmaniasis (ACL) lesions, most infiltrating T cells expressed the alpha beta TCR including those selectively migrating to the epidermis. In contrast, gamma delta T cells were abundant in localized (LCL) and scarce in muco-cutaneous (MCL) and diffuse (
DCL
) cutaneous leishmaniasis, suggesting a role in effective granulomas. There were differences in the expression of LFA-1 alpha and beta subunits, with most cells expressing LFA-1 beta. The ratio LFA-1 beta/LFA-1 alpha was higher in LCL (11.8:1) than in MCL (3.3:1) and
DCL
(2.4:1). Similar results were observed in Leishmania mexicana-infected C57BL/6 mice.
DCL
lesions showed a higher proportion of LFA-1 alpha+ cells than MCL and LCL lesions. A reverse-
transcriptase
polymerase chain reaction (RT-PCR) analysis of the cytokine profiles showed that most T cells present in the MCL and
DCL
lesions secrete a mixture of Type 1 and Type 2 cytokine patterns, but in
DCL
granulomas predominate the Type 2 cytokines. In LCL the cytokine patterns show a preponderance of INF gamma over IL-4, and low levels of IL-5 and IL-10, suggesting a Type 1 cytokine profile.
...
PMID:The cutaneous lesion in American leishmaniasis: leukocyte subsets, cellular interaction and cytokine production. 754 1
Multicellular eukaryotes produce small RNA molecules (approximately 21-24 nucleotides) of two general types, microRNA (miRNA) and short interfering RNA (siRNA). They collectively function as sequence-specific guides to silence or regulate genes, transposons, and viruses and to modify chromatin and genome structure. Formation or activity of small RNAs requires factors belonging to gene families that encode DICER (or DICER-LIKE [
DCL
]) and ARGONAUTE proteins and, in the case of some siRNAs,
RNA-dependent RNA polymerase
(
RDR
) proteins. Unlike many animals, plants encode multiple
DCL
and
RDR
proteins. Using a series of insertion mutants of Arabidopsis thaliana, unique functions for three
DCL
proteins in miRNA (DCL1), endogenous siRNA (DCL3), and viral siRNA (DCL2) biogenesis were identified. One
RDR
protein (RDR2) was required for all endogenous siRNAs analyzed. The loss of endogenous siRNA in dcl3 and rdr2 mutants was associated with loss of heterochromatic marks and increased transcript accumulation at some loci. Defects in siRNA-generation activity in response to turnip crinkle virus in dcl2 mutant plants correlated with increased virus susceptibility. We conclude that proliferation and diversification of
DCL
and
RDR
genes during evolution of plants contributed to specialization of small RNA-directed pathways for development, chromatin structure, and defense.
...
PMID:Genetic and functional diversification of small RNA pathways in plants. 1502 9
Plants and animals have single-stranded silencing RNAs (sRNAs) of 21-25 nucleotides in length that are derived from a double-stranded (ds)RNA precursor by Dicer (
DCL
) processing. These RNAs are the guide RNA for nucleases of the AGO class that cleave targeted RNA in a nucleotide sequence-specific manner. The cleaved RNAs are then degraded further or they are the template for an
RNA-dependent RNA polymerase
(
RDR
) that generates a dsRNA. In this paper, I discuss the possibility that this
RDR
-generated dsRNA initiates a cascade in which there are multiple rounds of secondary sRNA production. I propose that these secondary sRNAs feature in mechanisms that can either buffer mRNA populations against change or, in certain circumstances, mediate extensive changes in mRNA populations. The RNA cascades may also have RNA-mediated epigenetic characteristics in addition to the DNA and chromatin transcriptional silencing potential that has been previously linked with RNA silencing.
...
PMID:Short silencing RNA: the dark matter of genetics? 1738 Dec 75
Plants respond to virus infections by activation of RNA-based silencing, which limits infection at both the single-cell and system levels. Viruses encode RNA silencing suppressor proteins that interfere with this response. Wild-type Arabidopsis thaliana is immune to silencing suppressor (HC-Pro)-deficient Turnip mosaic virus, but immunity was lost in the absence of DICER-LIKE proteins DCL4 and DCL2. Systematic analysis of susceptibility and small RNA formation in Arabidopsis mutants lacking combinations of
RNA-dependent RNA polymerase
(
RDR
) and
DCL
proteins revealed that the vast majority of virus-derived small interfering RNAs (siRNAs) were dependent on DCL4 and RDR1, although full antiviral defense also required DCL2 and RDR6. Among the DCLs, DCL4 was sufficient for antiviral silencing in inoculated leaves, but DCL2 and DCL4 were both involved in silencing in systemic tissues (inflorescences). Basal levels of antiviral RNA silencing and siRNA biogenesis were detected in mutants lacking RDR1, RDR2, and RDR6, indicating an alternate route to form double-stranded RNA that does not depend on the three previously characterized
RDR
proteins.
...
PMID:Arabidopsis RNA-dependent RNA polymerases and dicer-like proteins in antiviral defense and small interfering RNA biogenesis during Turnip Mosaic Virus infection. 2578 32
RNA silencing is an important mechanism to regulate gene expression and antiviral defense in plants. Nevertheless, RNA silencing machinery in the important oil crop
Brassica napus
and function in resistance to the devastating fungal pathogen
Sclerotinia sclerotiorum
are not well-understood. In this study, gene families of RNA silencing machinery in
B. napus
were identified and their role in resistance to
S. sclerotiorum
was revealed. Genome of the allopolyploid species
B. napus
possessed 8
Dicer-like
(
DCL
), 27
Argonaute
(
AGO
), and 16
RNA-dependent RNA polymerase
(
RDR
) genes, which included almost all copies from its progenitor species
B. rapa
and
B. oleracea
and three extra copies of
RDR5
genes, indicating that the
RDR5
group in
B. napus
appears to have undergone further expansion through duplication during evolution. Moreover, compared with Arabidopsis, some
AGO
and
RDR
genes such as
AGO1, AGO4, AGO9
, and
RDR5
had significantly expanded in these
Brassica
species. Twenty-one out of 51
DCL
, AGO
, and
RDR
genes were predicted to contain calmodulin-binding transcription activators (CAMTA)-binding site (CGCG box).
S. sclerotiorum
inoculation strongly induced the expression of
BnCAMTA3
genes while significantly suppressed that of some CGCG-containing RNA silencing component genes, suggesting that RNA silencing machinery might be targeted by CAMTA3. Furthermore, Arabidopsis mutant analyses demonstrated that
dcl4-2, ago9-1, rdr1-1, rdr6-11
, and
rdr6-15
mutants were more susceptible to
S. sclerotiorum
, while
dcl1-9
was more resistant. Our results reveal the importance of RNA silencing in plant resistance to
S. sclerotiorum
and imply a new mechanism of CAMTA function as well as RNA silencing regulation.
...
PMID:Genome-Wide Identification of Dicer-Like, Argonaute, and RNA-Dependent RNA Polymerase Gene Families in
Brassica
Species and Functional Analyses of Their Arabidopsis Homologs in Resistance to
Sclerotinia sclerotiorum
. 2783 32
Shallot virus X is a typical representative of Allexiviruses. The transcription levels of principal genes involved in the RNA silencing in healthy and shallot virus X-infected plants have been quantified by real-time polymerase chain reaction. There is a negative correlation between the reproduction rates of RNA virus and the levels of
RNA-dependent RNA polymerase
and
DCL
proteins in roots and leaves of infected plants. These observations indicate that Shallot X virus employs noncanonical ways of overcoming the antiviral defense of the plant by systemic RNA silencing.
...
PMID:[Persistent Shallot virus X infection correlates with transcriptional repression of plant cell RNA-dependent RNA polymerase and DCL proteins in plant roots]. 2825 75
The next-generation sequencing (NGS) technology has revolutionized our previous understanding of the plant genomes, relying on its innate advantages, such as high throughput and deep sequencing depth. In addition to the protein-coding gene loci, massive transcription signals have been detected within intergenic or intragenic regions. Most of these signals belong to non-coding ones, considering their weak protein-coding potential. Generally, these transcripts could be divided into long non-coding RNAs and small non-coding RNAs (sRNAs) based on their sequence length. In addition to the well-known microRNAs (miRNAs), many plant endogenous sRNAs were collectively referred to as small interfering RNAs. However, an increasing number of unclassified sRNA species are being discovered by NGS. The high heterogeneity of these novel sRNAs greatly hampered the mechanistic studies, especially on the clear description of their biogenesis and action pathways. Fortunately, public databases, bioinformatics softwares and NGS datasets are increasingly available for plant sRNA research. Here, by summarizing these valuable resources, we proposed a general workflow to decipher the RDR (
RNA-dependent RNA polymerase
)- and
DCL
(Dicer-like)-dependent biogenesis pathways, and the Argonaute-mediated action modes (such as target cleavages and chromatin modifications) for specific sRNA species in plants. Taken together, we hope that by summarizing a list of the public resources, this work will facilitate the plant biologists to perform classification and functional characterization of the interesting sRNA species.
...
PMID:Bioinformatics resources for deciphering the biogenesis and action pathways of plant small RNAs. 2878 34
