「RNA」の共起表現一覧(2語右で並び替え)
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Each | RNA has a 5' cap and 3' polyadenylation. |
f several DNA copies of a target sequence using | RNA as a template. |
rdlD | RNA is a family of small non-coding RNAs which repr |
has a half-life of around 30 minutes while rdlD | RNA has a half-life of only 2 minutes. |
PtaRNA1 (plasmid transferred antisense | RNA) is a family of non-coding RNAs. |
The DNA or | RNA from a sample is copied in vitro by T7 polymera |
DicF | RNA is a non-coding RNA that is an antisense inhibi |
U6atac minor spliceosomal | RNA is a non-coding RNA which is an essential compo |
hylation is a common nucleoside modification of | RNA, where a methyl group is added to the 2' hydrox |
The CsrB | RNA is a non-coding RNA that binds to approximately |
The IS102 | RNA is a non-coding RNA that is found in bacteria s |
DNA and | RNA have a deoxyribose and ribose sugar backbone, r |
The RyeB | RNA is a non-coding RNA that was identified in a la |
SymR | RNA is a non-coding RNA which forms a type I toxin- |
the 5' UTR, so it is not inconceivable that the | RNA has a role as a cis-regulatory element. |
OxyS | RNA is a small non-coding RNA which is induced in r |
The RtT | RNA is a RNA element that is released from the tyrT |
rchers to use genetic material called ribosomal | RNA as a molecular probe to detect pathogenic micro |
mir-395 is a non-coding | RNA called a microRNA that was identified in both A |
Spiegelman introduced | RNA from a simple Bacteriophage Qβ (Qβ) into a solu |
s responsible for the introduction of HIV viral | RNA into a host's cellular DNA. |
ific endonuclease and catalyzes the cleavage of | RNA via a hydrolytic mechanism. |
U4atac minor spliceosomal | RNA is a ncRNA which is an essential component of t |
op which inhibited translation of a prokaryotic | RNA, unless a complementary RNA sequence (anti-inhi |
o measure the specific amount of target DNA (or | RNA) in a sample. |
miR-196 is a non-coding | RNA called a microRNA that has been shown to be exp |
and sequencing of a gene encoding 16S ribosomal | RNA from a novel hyperthermophilic archaebacterium |
Qrr | RNA is a non-coding RNA that is thought to be invol |
The class I | RNA is a non-coding RNA. |
SymR was originally labelled RyjC and is a 77nt | RNA with a σ70 promoter. |
ated by any ribosomal proteins but by ribosomal | RNA (rRNA), a ribozyme. |
Antisense | RNA is a single-stranded RNA that is complementary |
SYBR green can also stain | RNA with a lower performance than DNA. |
The R2 element 3' UTR | RNA is a cis-acting element identified in R2 retrot |
6C | RNA is a class of non-coding RNA present in actinom |
Since | RNA has a secondary structure that is not necessari |
tionally isomerize specific uridine residues in | RNA in a process termed pseudouridylation. |
Memory | RNA is a now-discredited hypothetical form of RNA t |
ar Trek novels during the 1980s employed memory | RNA as a plot device to allow a character to rapidl |
nctional virus could be created out of purified | RNA and a protein coat. |
SL2 | RNA is a non-coding RNA involved in trans splicing |
This suggests that roX | RNA plays a role in directing MSL complex to the X |
RyhB | RNA is a 90 nucleotide non-coding RNA that down-reg |
The C0719 | RNA is a bacterial non-coding RNA of 222 nucleotide |
The ISO61 | RNA is a bacterial non-coding RNA of 181 nucleotide |
his product is then either integrated into DNA, | RNA, or a ribose diphosphate molecule ADP, the prec |
phages which encode their own (single subunit) | RNA polymerase, a common characteristic among its m |
The C0465 | RNA is a bacterial non-coding RNA of 78 nucleotides |
eates single-stranded DNA using single-stranded | RNA as a template. |
In retrospect, catalytic | RNA makes a lot of sense. |
DNA and | RNA have a deoxyribose and ribose sugar backbone, r |
Mitochondrially encoded 12S | RNA (often abbreviated as 12S) is a 959 nt long mit |
Mature messenger | RNA, often abbreviated as mature mRNA is a eukaryot |
gle molecule of positive-sense, single-stranded | RNA of about 9000 nucleotides in length. |
into 3 parts of positive sense, single stranded | RNA of about 8600 nucleotides in length. |
de an easy way of digital quantification of the | RNA transcript abundances in biological samples. |
cetyl-coA cholesterol acyltransferase messenger | RNA, see ACAT1 mRNA. |
ved stem-loops whose terminal loops contain the | RNA sequence ACGR, where R represents either A or G |
DNA (deoxyribonucleic acid) and | RNA (ribonucleic acid) are examples of polynucleoti |
ary sources of cytidine include foods with high | RNA (ribonucleic acid) content, such as organ meats |
This allows the antisense | RNA to act as a reversible switch that responds to |
ion by binding to the polymerase, thus stopping | RNA polymerase activity inside a cell. |
Stimulates T4 polynucleotide kinase and T7 | RNA polymerase activity |
the first two subtypes have been shown to have | RNA editing activity. |
These results suggest that this intergenic | RNA element acts as a iscR mRNA stability element b |
s or block the activity of a miRNA (using short | RNA that acts independently of the cell's RNAi mach |
must first be transcribed into a positive-sense | RNA that acts as an mRNA. |
Also, 2'-O-methylation of adenosine in an | RNA prevents adenosine deaminase from editing it to |
, or ADARB2) is a member of the double-stranded | RNA (dsRNA) adenosine deaminase family of RNA-editi |
A conserved | RNA structure adopted by the a1, b1 site was identi |
Unlike the eukaryotic | RNA immediately after transcription known as precur |
atory demonstrated that a mixture containing no | RNA at all but only RNA bases and Q-Beta Replicase |
eased mechanical flexibility of DNA compared to | RNA, which allows it to assume the double-helix con |
He and his group discovered that the | RNA molecule alone was sufficient for the observed |
This | RNA was also discovered in E. coli during a large s |
The basic principle or the memory | RNA was also used by comic book writer Alan Moore t |
RNA can also be altered by having its nucleotides m | |
Small nucleolar | RNA MBI-28, also known as SNORA3 and ACA3, is a non |
The | RNA World also implies the existence of several enz |
Alongside | RNA editing, alternative splicing allows a range of |
cation and is thought to be involved in genomic | RNA packaging although this may not be its only rol |
The | RNA is always found within an operon encoding subun |
The | RNA is always found in the presumed 5' untranslated |
g blocks of life, e.g., nucleotides for DNA and | RNA and amino acids for proteins. |
ch a ribosome begins to translate a sequence of | RNA into amino acids. |
Sar | RNA is an antisense non-coding RNA that is partly r |
The acquisition of a spliced leader from an SL | RNA is an intra-molecular reaction which precisely |
are manufactured, the gene is first copied into | RNA as an intermediate product. |
mples as well as derived products, such as DNA, | RNA, protein and cell lines. |
has been found to be required for minus strand | RNA accumulation and is essential for efficient vir |
ated CpG repeats), ATP, toxins, double stranded | RNA, paramyxoviruses and uric acid crystals. |
letion of GSL3 leads to decreases in both viral | RNA packaging and dimerisation. |
his allows the sigma S factor to associate with | RNA polymerase and direct the expression of the sta |
sion in prokaryotes, anti-sigma factors bind to | RNA polymerases and inhibit transcriptional activit |
The binding is not specific to any | RNA sequence, and is performed via a peptide sequen |
It is known as a small nucleolar | RNA (snoRNA) and also often referred to as a 'guide |
It is known as a small nucleolar | RNA (snoRNA) and also often referred to as a guide |
ated, were the chromatin expands and occurs the | RNA transcription and DNA replication. |
sts include the in vitro evolution of catalytic | RNA molecules and the origins of life. |
It is known as a small nucleolar | RNA (snoRNA) and also often referred to as a 'guide |
ought to act by destabilising the REN messenger | RNA (mRNA) and promoting degradation of the mRNA se |
Primase is an | RNA polymerase, and it can add a primer to an exist |
These have double-stranded | RNA genomes and are therefore group III viruses. |
s of glutamine riboswitches are known: the glnA | RNA motif and Downstream-peptide motif. |
iation of DNA transcription, the capping of the | RNA transcript, and attachment to the spliceosome f |
ate hydrolase, N-substituted aminoacyl transfer | RNA hydrolase, and peptidyl-tRNA hydrolase. |
RNA interference and protein phosphorylation in spa | |
ccording to the two main models of abiogenesis, | RNA world and iron-sulfur world, prebiotic processe |
cture is recognised as a termination signal for | RNA polymerase and the operon is not transcribed. |
However, the GC content of ribosomal | RNA (rRNA) and transfer RNA (tRNA) genes in hyperth |
ubsteps of transcription, including elongation, | RNA splicing, and termination and degradation of th |
e the nucleotide sequence of biological DNA and | RNA molecules, and today hundreds of millions of nu |
It is known as a small nucleolar | RNA (snoRNA) and also often referred to as a 'guide |
Offerings include | RNA, MicroRNA and DNA based molecular diagnostic pr |
National Laboratory for studies of protein and | RNA structure and dynamics. |
tRNA-like structures are required for | RNA encapsulation and increase RNA stability. |
These genes encode a subunit of | RNA polymerase, and it is hypothesized that Lacto-r |
RNA polymerase and DNA polymerase III then replicat | |
This has relevance for prebiotic studies of the | RNA world and DNA world hypothesis for the origin o |
to both repress further transcription of the 5S | RNA gene and stabilize the 5S RNA transcript until |
Davidson's Ph.D. work entailed studying | RNA synthesis and gene expression in early developm |
to Listeria's virulence, identified additional | RNA repressors, and determined that riboswitches ca |
r phylogenetic systematic analyses of proteins ( | RNA polymerase and viral coat). |
If it is, the sequence is likely to be an | RNA gene, and the secondary structure is presumed t |
s family have been found to cause a blockage in | RNA replication and it is thought that both the pri |
e RNase III family that cleaves double-stranded | RNA (dsRNA) and pre-microRNA (miRNA) into short dou |
nucleotide identity are present throughout the | RNA motif, and many contain short runs of adenosine |
In molecular biology, small nucleolar | RNA SNORA10 and small nuclear RNA SNORA64 are homol |
n between the affected DNA and: DNA polymerase, | RNA polymerase and transcription factors. |
(2010) Molecular Interplay of the Non-coding | RNA ANRIL and Methylated Histone H3 Lysine 27 by Po |
aphivirinae, but do not contain a phage-encoded | RNA polymerase and show greater differences at the |
interactions of proteins with radiolabeled DNA, | RNA, ligands, and other small chemicals. |
rst 105 amino acid was shown to be critical for | RNA binding and re-localisation to SGs. |
A polymerase for PCR, reverse transcriptase for | RNA analysis and restriction endonucleases for clon |
-1 RNAs make up a significant portion of marine | RNA transcripts and are exceptionally abundant in t |
They bind DNA, | RNA, protein and/or lipid substrates. |
ry 2010, the current version 10.0 contains 1446 | RNA families annotating over 3,192,596 genes. |
This | RNA molecule appears to be conserved amongst Lister |
DNA helicase where it then synthesizes a short | RNA primer approximately 11 ±1 nucleotides long, to |
These positive strand | RNA genomes are translated as a single polypeptide |
Paired DNA and | RNA molecules are comparatively stable at room temp |
occurring DNA molecules are double-stranded and | RNA molecules are single-stranded. |
nes resulting from the retrotransposition of an | RNA intermediate are known as processed pseudogenes |
However, most predicted manA | RNA sequences are derived from DNA collected from u |
g is the mechanism by which codons on messenger | RNA molecules are recognized by anticodons on trans |
In eukaryotes, modifications of | RNA nucleotides are generally directed by small nuc |
In other cases, the | RNA molecules are the actual functional products. |
The | RNA segments are first elongated by DNA polymerase |
The respective DNA and | RNA nucleases are supposed to be less active at the |
ds replicate via a double stranded intermediate | RNA, they are targeted by a dicer enzyme and cleave |
, raltitrexed prevents the formation of DNA and | RNA, which are required for the growth and survival |
multiple copies of circular molecules of DNA or | RNA, such as plasmids, the genomes of bacteriophage |
This | RNA acts as a global regulator to activate or repre |
As a result, the virus is often used to study | RNA interference as a mechanism of viral immunity i |
her experiments with other strands of synthetic | RNA (such as Poly-A) and prepare papers for publica |
he motif might be related to the Desulfotalea-1 | RNA motif, as the motifs share some similarity in c |
anine as G, cytosine as C, thymine as T, and in | RNA, uracil as U. |
se include the synthesis of branched and lariat | RNA structures as well as novel levulinyl-based pro |
enomes of viruses whose genomes are composed of | RNA, such as Influenzavirus A and retroviruses like |
The ICTV classifies | RNA viruses as those that belong to Group III, Grou |
artyl ribonucleic synthetase, aspartyl-transfer | RNA synthetase, aspartic acid translase, aspartyl-t |
RHAU ( | RNA Helicase associated with AU-rich element, also |
dical scientist, and an Assistant Professor and | RNA researcher at Case Western Reserve University. |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) at residue G436. |
o guide 2'O-ribose methylation of 28s ribosomal | RNA (rRNA) at position U3797. |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) at residue A99 3 |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) at residue G3923. |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) at residue C3848.. Its is related to mou |
translocation) could be inhibited by antisense | RNA targeted at the start codon region of Bcl-2 mRN |
de the 2'-O-ribose methylation of 28s ribosomal | RNA (rRNA) at residue A4531. |
the 2'O-ribose methylation of the 28S ribosomal | RNA (rRNA) at residue A3697 . |
se complement, then the 3' part of the apparent | RNA stem at this position should contain the comple |
RsaOG (an acronym for | RNA S. aureus Orsay G) is a non-coding RNA that was |
Genotypically, studies of 16s ribosomal | RNA suggested B. kururiensis belonged to the genus |
The | RNA from bacterial RNase Ps retains its catalytic a |
w genetic information is coded, how it turns to | RNA, which base triplets fits to which amino acids, |
tamers are commonly used as descriptors, and in | RNA the base pairing pattern is used. |
ridizes to single-stranded nucleic acid (DNA or | RNA) whose base sequence allows probe-target base p |
sequences that are complementary to the target | RNA and basepair to the regions flanking the uridin |
ate with enzymes and guide them to a spot on an | RNA by basepairing to that RNA. |
Spliceosome | RNA helicase BAT1 is an enzyme that in humans is en |
Like DNA, this | RNA cannot be translated into protein directly. |
Nonetheless, it was proposed that this | RNA could be a cis-regulatory element, an attractiv |
Since the | RNA could be in the 5' UTRs of protein-coding genes |
elope protein (protein M) and enables the viral | RNA to be specificity packaged into virions . |
As with DNA, | RNA can be delivered to cells by a variety of means |
RNA can be purified from cells after lysis or synth | |
lls as a whole, rather than simply their DNA or | RNA, can be used for therapeutic purposes. |
Homogeneously labeled single-stranded | RNA can be generated with this system. |
RNA can be selectively synthesized from either stra | |
However, an IMES-2 | RNA has been detected in alphaproteobacterium HIMB1 |
Although no PhotoRC-II | RNA has been detected in cyanobacteria, one is foun |
This | RNA has been shown to bind to the Hfq protein. |
In S. typhimurium InvR | RNA has been shown to repress the synthesis of the |
The function of this short | RNA has been studied using a transcriptomic approac |
pment of small molecules targeting proteins and | RNA has been performed to investigate how small mol |
Such a short | RNA had been able to replicate very quickly in thes |
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