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:2.7.7.48 (
transcriptase
)
9,479
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
Formation of trans-acting small interfering RNAs (ta-siRNAs) from the TAS3 precursor is triggered by the AGO7/miR390 complex, which primes TAS3 for conversion into double-stranded RNA by the
RNA-dependent RNA polymerase
RDR6 and SGS3. These ta-siRNAs control several aspects of plant development. The mechanism routing AGO7-cleaved TAS3 precursor to RDR6/SGS3 and its subcellular organization are unknown. We show that AGO7 accumulates together with SGS3 and RDR6 in cytoplasmic siRNA bodies that are distinct from P-bodies. siRNA bodies colocalize with a membrane-associated viral protein and become positive for stress-granule markers upon stress-induced translational repression, this suggests that siRNA bodies are membrane-associated sites of accumulation of mRNA stalled during translation. AGO7 congregates with miR390 and SGS3 in membranes and its targeting to the nucleus prevents its accumulation in siRNA bodies and ta-siRNA formation. AGO7 is therefore required in the cytoplasm and membranous siRNA bodies for TAS3 processing, revealing a hitherto unknown role for membrane-associated ribonucleoparticles in ta-siRNA biogenesis and
AGO
action in plants.
...
PMID:Cytoplasmic Arabidopsis AGO7 accumulates in membrane-associated siRNA bodies and is required for ta-siRNA biogenesis. 2232 16
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
The mechanisms of RNA interference (RNAi) as a defense response against viruses remain unclear in many plant-pathogenic fungi. In this study, we used reverse genetics and virus-derived small RNA profiling to investigate the contributions of RNAi components to the antiviral response against Fusarium graminearum viruses 1 to 3 (FgV1, -2, and -3). Real-time reverse transcription-quantitative PCR (qRT-PCR) indicated that infection of
Fusarium graminearum
by FgV1, -2, or -3 differentially induces the gene expression of RNAi components in
F. graminearum
Transcripts of the
DICER-2
and
AGO
-1
genes of
F. graminearum
(
FgDICER-2
and
FgAGO-1
) accumulated at lower levels following FgV1 infection than following FgV2 or FgV3 infection. We constructed gene disruption and overexpression mutants for each of the Argonaute and dicer genes and for two
RNA-dependent RNA polymerase
(RdRP) genes and generated virus-infected strains of each mutant. Interestingly, mycelial growth was significantly faster for the FgV1-infected
FgAGO-1
overexpression mutant than for the FgV1-infected wild type, while neither FgV2 nor FgV3 infection altered the colony morphology of the gene deletion and overexpression mutants. FgV1 RNA accumulation was significantly decreased in the
FgAGO-1
overexpression mutant. Furthermore, the levels of induction of
FgAGO-1
,
FgDICER-2
, and some of the
FgRdRP
genes caused by FgV2 and FgV3 infection were similar to those caused by hairpin RNA-induced gene silencing. Using small RNA sequencing analysis, we documented different patterns of virus-derived small interfering RNA (vsiRNA) production in strains infected with FgV1, -2, and -3. Our results suggest that the Argonaute protein encoded by
FgAGO-1
is required for RNAi in
F. graminearum
, that
FgAGO-1
induction differs in response to FgV1, -2, and -3, and that
FgAGO-1
might contribute to the accumulation of vsiRNAs in FgV1-infected
F. graminearum
IMPORTANCE
To increase our understanding of how RNAi components in
Fusarium graminearum
react to mycovirus infections, we characterized the role(s) of RNAi components involved in the antiviral defense response against Fusarium graminearum viruses (FgVs). We observed differences in the levels of induction of RNA silencing-related genes, including
FgDICER-2
and
FgAGO-1
, in response to infection by three different FgVs.
FgAGO-1
can efficiently induce a robust RNAi response against FgV1 infection, but
FgDICER
genes might be relatively redundant to
FgAGO-1
with respect to antiviral defense. However, the contribution of this gene in the response to the other FgV infections might be small. Compared to previous studies of
Cryphonectria parasitica
, which showed dicer-like protein 2 and Argonaute-like protein 2 to be important in antiviral RNA silencing, our results showed that
F. graminearum
developed a more complex and robust RNA silencing system against mycoviruses and that FgDICER-1 and FgDICER-2 and FgAGO-1 and FgAGO-2 had redundant roles in antiviral RNA silencing.
...
PMID:Differential Contribution of RNA Interference Components in Response to Distinct Fusarium graminearum Virus Infections. 2943 77
