「rn a」の共起表現一覧(1語左で並び替え)
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SMKbox riboswitch (also known as SAM-III) is a | RNA element that regulates gene expression in bacte |
An example of a core enzyme is a | RNA polymerase enzyme without the sigma factor (σ). |
Hua-Enhancer1 (HE1) is a | RNA methyltransferase protein that plays a role in |
he frequency of frameshifting is increased by a | RNA secondary structure located on the 3' side of t |
The SAM-II riboswitch is a | RNA element found predominantly in alpha-proteobact |
Hollywood is a | RNA splicing database containing data for the splic |
oped virus with seven structural proteins and a | RNA genome consisting of 10 double-stranded (ds) RN |
c-sis internal ribosome entry site (IRES) is a | RNA element found in the 5' UTR of the PDGF beta ch |
he electropositive surface of RRMs 1 and 2 is a | RNA annealing domain while the cleft between RRMs 1 |
genetic code is traditionally represented as a | RNA codon table due to the biochemical nature of th |
ccording to the two main models of abiogenesis, | RNA world and iron-sulfur world, prebiotic processe |
yribonucleic acid (DNA) forms ribonucleic acid ( | RNA) which makes protein. |
Nucleic acid ( | RNA, DNA) partitions in the aqueous phase, while pr |
Ribonucleic acid ( | RNA) with two repeating units (UCUCUCU → UCU CUC UC |
expression analysis and small ribonucleic acid ( | RNA) analysis. |
MicroRNAs (miRNAs) are short ribonucleic acid ( | RNA) molecules, on average only 22 nucleotides long |
The Acido-1 | RNA motif is a conserved RNA structure identified b |
The Acido-Lenti-1 | RNA motif describes a predicted non-coding RNA that |
he development of gene silencing nucleic acids ( | RNA interference/ siRNA/ antisense oligonucleotides |
new proteins via the use of ribonucleic acids ( | RNA) and ribosomes. |
edicine "for the synthesis of the nucleic acids | RNA and DNA." |
In addition, active | RNA degradation systems are a first defense against |
(proofreading) and 5'->3' exonuclease activity ( | RNA primer removal). |
e only primer for the leading strand and to add | RNA primers on the lagging strand. |
to Listeria's virulence, identified additional | RNA repressors, and determined that riboswitches ca |
ing protein and DNA synthesis without affecting | RNA synthesis, prevents cell division, and has been |
r otherwise become unable to bind DNA, allowing | RNA polymerase to continue transcription. |
This allows | RNA polymerase to transcribe the operon. |
Alongside | RNA editing, alternative splicing allows a range of |
See also | RNA interference |
flip and flop isoforms generated by alternative | RNA splicing. |
Stanford University, discovering the role of an | RNA primer in the replication of DNA. |
Gammaretrovirus core encapsidation signal is an | RNA element known to be essential for stable dimeri |
Guanosine is required for an | RNA splicing reaction in mRNA, when a "self-splicin |
The HIV Ribosomal frameshift signal is an | RNA element. |
e BiP internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of Bi |
anscriptase creates single-stranded DNA from an | RNA template. |
c-myc internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of C- |
e APC internal ribosome entry site (IRES) is an | RNA element which is located in the coding sequence |
In enzymology, an | RNA ligase (ATP) (EC 6.5.1.3) |
N-myc internal ribosome entry site (IRES) is an | RNA element found in the n-myc gene. |
e Hepatitis B virus PREbeta (HBV PREbeta) is an | RNA structure that is shown to play a role in nucle |
in-32 internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of co |
ALIL pseudoknot is an | RNA element that induces frameshifting in bacteria. |
In some bacteriophage, an | RNA (pRNA) molecule is a vital component of this mo |
irus type 1 major splice donor (HIV-1 SD) is an | RNA structure that is shown to modulate splicing ef |
An example of an | RNA stem-loop, similar to what is seen in the RNA r |
Secondary structure of RUF21, an | RNA of unknown function from S. cerevisiae |
reactions (for example, be incorporated into an | RNA molecule, thus causing the premature terminatio |
That is, trans-splicing results in an | RNA transcript that came from multiple RNA polymera |
Also, 2'-O-methylation of adenosine in an | RNA prevents adenosine deaminase from editing it to |
The Influenza virus pseudoknot is an | RNA pseudoknot structure formed in one of the non-s |
ate with enzymes and guide them to a spot on an | RNA by basepairing to that RNA. |
several uridine nucleotides to the 3' end of an | RNA. |
Pstart element has been shown to function as an | RNA, and is present in the 5' untranslated regions |
Primase is an | RNA polymerase, and it can add a primer to an exist |
virus internal ribosome entry site (IRES) is an | RNA element required for the production of capsid p |
ons of the eutG locus using Ribex identified an | RNA element between the eutT and eutG genes. |
The Hsp90 cis regulatory element is an | RNA element (RNA thermometer) found in the 5' UTR o |
Bacterial RNase P has two components: an | RNA chain, called M1 RNA, and a polypeptide chain, |
he Spi-1 (PU.1) 5' UTR regulatory element is an | RNA element found in the 5' UTR of Spi-1 mRNA which |
The bacterial glycine riboswitch is an | RNA element that can bind the amino acid glycine. |
V trans-activation response (TAR) element is an | RNA element which is known to be required for the t |
cloverleaf cis-acting replication element is an | RNA element found in the 5' UTR of Enterovirus geno |
Spiegelman Monster is the name given to an | RNA chain of only 218 nucleotides that is able to b |
ription terminators that require Rho factor, an | RNA helicase protein complex, to disrupt the nascen |
r biology, the enteroviral 3' UTR element is an | RNA structure found in the 3' UTR of various entero |
nes resulting from the retrotransposition of an | RNA intermediate are known as processed pseudogenes |
HIV gag stem loop 3 (GSL3) is an | RNA element that is known to direct specific packag |
dimerization initiation site (HIV-1 DIS) is an | RNA structure that is shown to promote dimerization |
A primary transcript is an | RNA molecule that has not yet undergone any modific |
e is a region of a nucleotide sequence where an | RNA or DNA single-stranded primer binds to start re |
The Leucine operon leader is an | RNA element found upstream of the first gene in the |
ce IS1222 ribosomal frameshifting element is an | RNA element found in the insertion sequence IS222. |
FGs could predict the secondary structure of an | RNA molecule similarly to existing techniques: such |
man Parechovirus 1 cis regulatory element is an | RNA element which is located in the 5'-terminal 112 |
An | RNA fragment found in the R2 3' untranslated region |
The Varkud satellite (VS) ribozyme is an | RNA enzyme that carries out the cleavage of a phosp |
whereby a protein toxin is bound directly by an | RNA molecule. |
The Infectious bronchitis virus D-RNA is an | RNA element known as defective RNA or D-RNA. |
FGF-1 internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of fi |
The Coronavirus 3' UTR pseudoknot is an | RNA structure found in the coronavirus genome. |
ave negative-sense genomes and so must carry an | RNA polymerase inside the virion. |
sp70) internal ribosome entry site (IRES) is an | RNA element that allows cap independent translation |
A primase such as dnaG, which generates an | RNA primer to be used in DNA replication. |
They showed that this region formed an | RNA secondary structure that occludes the shine-dal |
Temperature-sensitivity of an | RNA thermometer region in the rpoh gene compared wi |
The Pospiviroid RY motif stem loop is an | RNA element found in Pospiviroids such as potato sp |
An | RNA virus is a virus that has RNA (ribonucleic acid |
The Sxy 5' UTR element is an | RNA element that controls expression of the sxy gen |
The Histone 3' UTR stem-loop is an | RNA element involved in nucleocytoplasmic transport |
Despite this variability, an | RNA transcript from this region has a conserved sec |
If it is, the sequence is likely to be an | RNA gene, and the secondary structure is presumed t |
The LTRs are partially transcribed into an | RNA intermediate, followed by reverse transcription |
The direct repeat 1 (dr1) element is an | RNA element commonly found in the 3' UTR of Avian s |
itially, everyone thought the new enzyme was an | RNA polymerase used by E. coli cells to make long c |
The S-element is an | RNA element found in p42d and related plasmids. |
HCV) cis-acting replication element (CRE) is an | RNA element which is found in the coding region of |
or stem-loop destabilising element (SLDE) is an | RNA element secreted by fibroblasts and endothelial |
The PyrR binding site is an | RNA element that is found upstream of a variety of |
The Retroviral readthrough element is an | RNA structure that is shown to facilitate the mecha |
Hepatitis B virus PREalpha (HBV PREalpha) is an | RNA structure that is shown to play a role in nucle |
op motif and a receptor motif located within an | RNA duplex, creating a tertiary contact that stabil |
IF-1α internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of HI |
all other fully sequenced virus species with an | RNA or single-stranded DNA genome. |
020 (μg/ml)-1 cm-1, for single-stranded DNA and | RNA it is 0.027 (μg/ml)-1 cm-1 and for short single |
d thus more plausible, than the iron-sulfur and | RNA worlds. |
the separation of nucleic acids such as DNA and | RNA. |
ture and magnesium ion (which stabilise DNA and | RNA interactions) concentrations can increase speci |
n synthesis, as a chemical component of DNA and | RNA. |
Paired DNA and | RNA molecules are comparatively stable at room temp |
DNA and | RNA contain phosphate in their structure. |
DNA and | RNA are the main nucleic acids |
the separation of nucleic acids such as DNA and | RNA. |
3 was being repressed, TATA-binding protein and | RNA Polymerase II were still bound to the SER3 DNA |
He investigated how cells form enzymes, DNA and | RNA structures, virology and the molecular basis of |
dical scientist, and an Assistant Professor and | RNA researcher at Case Western Reserve University. |
secondary structures of single stranded DNA and | RNA G-rich called G-quadruplexes (G4-DNA and G4-RNA |
ter chemical or enzymatic extraction of DNA and | RNA from the tissue (Lillie et al., 1976). |
hosphates, as are nucleic acids such as DNA and | RNA. |
occurring DNA molecules are double-stranded and | RNA molecules are single-stranded. |
ology to separate a mixed population of DNA and | RNA fragments by length, to estimate the size of DN |
They also form the backbone for DNA and | RNA (DNA having two sugar molecules, and RNA having |
DNA and | RNA have a deoxyribose and ribose sugar backbone, r |
Protein and | RNA are transported in particles (white dots) from |
acitidine can be incorporated into both DNA and | RNA chains. |
Structure group: the group develops protein and | RNA 3-D structure prediction methods based on graph |
biological macromolecules such as proteins and | RNA, but can also be used for polysaccharides and o |
vers research on nucleic acids, such as DNA and | RNA, and related work. |
n GW182, Argonaute (Ago), decapping enzymes and | RNA helicases. |
g blocks of life, e.g., nucleotides for DNA and | RNA and amino acids for proteins. |
n Nuclease has higher specificity for ssDNA and | RNA than S1 Nuclease, it is the enzyme of choice fo |
strates of this enzyme are ATP, L-tyrosine, and | RNA, whereas its 3 products are AMP, triphosphate, |
Description: A single-strand specific DNA and | RNA endonuclease which will degrade single-stranded |
ural absorbance of light at 260 nm (for DNA and | RNA) or 280 nm (for proteins). |
Inhibits DNA and | RNA synthesis by intercalating between base pairs o |
xy- and ribonucleotide pools needed for DNA and | RNA synthesis. |
DNA (deoxyribonucleic acid) and | RNA (ribonucleic acid) are examples of polynucleoti |
e the nucleotide sequence of biological DNA and | RNA molecules, and today hundreds of millions of nu |
as LB buffer for gel electrophoresis of DNA and | RNA. |
cations are 5' capping, 3' polyadenylation, and | RNA splicing, which occur in the cell nucleus befor |
National Laboratory for studies of protein and | RNA structure and dynamics. |
f ribavirin, active against a number of DNA and | RNA viruses. |
vides nonspecific labeling of proteins, DNA and | RNA probes or other molecules. |
lts in complex formation which inhibits DNA and | RNA synthesis. |
molecular markers for tumors (including DNA and | RNA markers) which can be used in the laboratory or |
ucted comparative analysis of bacterial DNA and | RNA, and predicted existence of messenger RNA. |
ring to nucleic acid molecules, such as DNA and | RNA, collectively referred to as nucleic acid nomen |
Biotinylation of DNA and | RNA with photoactivatable biotin is easier and less |
d structure allows gene regulatory proteins and | RNA polymerase complexes to bind to the DNA sequenc |
eins and molecular motors, such as Helicase and | RNA polymerase. |
is held at the Royal Melbourne Showgrounds and | RNA Showgrounds Brisbane in April, followed by Sydn |
Metagenomics is the analysis of the DNA and | RNA sequences from a usually uncultured environment |
pment of small molecules targeting proteins and | RNA has been performed to investigate how small mol |
The respective DNA and | RNA nucleases are supposed to be less active at the |
are special DNA ladders for supercoiled DNA and | RNA. |
ch are the molecular building-blocks of DNA and | RNA. |
It binds DNA and | RNA and is the acting component of diminazene acetu |
ry as buffer for gel electrophoresis of DNA and | RNA. |
an important milestone in understanding DNA and | RNA. |
DNA and | RNA have a deoxyribose and ribose sugar backbone, r |
, raltitrexed prevents the formation of DNA and | RNA, which are required for the growth and survival |
The anti-hemB | RNA motif consists primarily of two stem-loops, fol |
The anti-hemB | RNA motif is a conserved RNA structure that was fou |
PtaRNA1 (plasmid transferred antisense | RNA) is a family of non-coding RNAs. |
been described, such as the Zeb2/Sip1 antisense | RNA, no general function has been elucidated. |
Antisense | RNA has long been thought of as a promising techniq |
This allows the antisense | RNA to act as a reversible switch that responds to |
Binding of the a2, b2 site by the c4 antisense | RNA represses the ant gene. |
translocation) could be inhibited by antisense | RNA targeted at the start codon region of Bcl-2 mRN |
Antisense | RNA is a single-stranded RNA that is complementary |
The c4 antisense | RNA has two regions, called a' and b' (see diagram) |
One commentator has characterized antisense | RNA as one of "dozens of technologies that are gorg |
NrrF acts as an antisense | RNA and is complementary to the junction between th |
d by 6nt, and was characterised as an antisense | RNA which bound the 5' untranslated region of yjiW. |
Antizyme | RNA frameshifting stimulation element is a structur |
The binding is not specific to any | RNA sequence, and is performed via a peptide sequen |
fter they had been reverse transcribed from any | RNA molecule. |
se complement, then the 3' part of the apparent | RNA stem at this position should contain the comple |
Purine riboswitches are | RNA structures that regulate protein biosynthesis i |
Ribosomal protein leaders are | RNA sequences that are a part of the 5' UTR of mRNA |
RNA-like structures (tRNA-like structures) are | RNA sequences, which have a similar tertiary struct |
Riboprobes are | RNA probes that can be produced by in vitro transcr |
Main article: | RNA transfection |
impossible to create a complex molecule such as | RNA (or even its molecular precursor, pre-RNA) dire |
sity of the subunits is determined , as well as | RNA splicing, by RNA editing events of the individu |
hat the S. coelicolor version is transcribed as | RNA. |
is usually devoid of annotated features such as | RNA or protein-coding genes. |
est theoretical forms of life on Earth, such as | RNA life or iron-sulfur life which may have been th |
om which such RNAs are transcribed are known as | RNA genes. |
This includes protein-coding genes as well as | RNA genes, but may also include prediction of other |
with general transcription factors, as well as | RNA polymerase II, and is essential for activator-d |
o whether the indicated motif is transcribed as | RNA, or whether its reverse complement is transcrib |
e transcription terminator that follows the asd | RNA, and this promoter precedes the downstream gene |
First, in some cases, the asd | RNA is not in the 5' untranslated region of any ann |
This arrangement suggests that asd | RNA transcription is terminated, and the gene is tr |
The asd | RNA motif is a conserved RNA structure found is cer |
artyl ribonucleic synthetase, aspartyl-transfer | RNA synthetase, aspartic acid translase, aspartyl-t |
Once inside a host cell cytoplasm, the genomic | RNA's are transcribed into mRNA's by the associated |
Invasion gene associated | RNA (also known as InvR) is a small non-coding RNA |
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