「RNA」の共起表現一覧(1語右で並び替え)
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After digestion of the | RNA, a single stranded DNA (ssDNA) is left and beca |
Clones carrying rprA (RpoS regulator | RNA A) increased the translation of RpoS. |
The small nucleolar | RNA ACA40 belongs to the H/ACA family of snoRNAs an |
Small nucleolar | RNA ACA49 is a snoRNA, originally cloned by Kiss et |
has been found to be required for minus strand | RNA accumulation and is essential for efficient vir |
here are two major approaches to understand the | RNA accumulation in meiocytes: 1) RNA-seq and 2) Mi |
This | RNA acts as a global regulator to activate or repre |
ungal endonuclease that cleaves single-stranded | RNA after guanine residues, i.e., on their 3' end; |
he SOS response represses transcription of SymR | RNA, allowing SymE toxin to degrade potentially dam |
A polymerase for PCR, reverse transcriptase for | RNA analysis and restriction endonucleases for clon |
expression analysis and small ribonucleic acid ( | RNA) analysis. |
ar ribonucleoproteins (hnRNPs) are complexes of | RNA and protein present in the cell nucleus during |
genomic DNA can be converted to both messenger | RNA and transfer RNA, particularly when there are i |
lar biology platform for quantification of DNA, | RNA and protein manufacturered by Invitrogen. |
of nucleotide precursors and inhibition of DNA, | RNA, and protein synthesis. |
for describing genes and other features of DNA, | RNA and protein sequences. |
crylamide gel electrophoresis (PAGE) since DNA, | RNA, and most proteins are colourless. |
echnique that allowed the detection of specific | RNA and DNA molecules in cells. |
H and began to study the steps that relate DNA, | RNA and protein. |
e transcription terminator that follows the asd | RNA, and this promoter precedes the downstream gene |
d are widely used in chemical synthesis of DNA, | RNA, and other nucleic acids and their analogs. |
rt ligands include DNA smart aptamers; however, | RNA and peptide smart aptamers can also be develope |
rge number of cellular processes including DNA, | RNA and protein synthesis. |
een the viral non-structural proteins and viral | RNA and the role of cellular proteins in non-envelo |
For DNA, | RNA, and lipids, CHARMM27 is used. |
stored in DNA genes, transcribed into messenger | RNA, and then translated by the ribosome into the a |
e structures and interactions of proteins, DNA, | RNA, and other molecules in solutions of different |
Only two bacterial RNAs are known (6S | RNA and transfer RNA) to be more highly transcribed |
specific degradation of single-stranded DNA or | RNA, and produces mono and oligonucleotides carryin |
made several contributions to the synthesis of | RNA and novel RNA structures. |
It has been used to find interactions between | RNA and protein (one protein but many RNA species p |
ollection of isolated DNA fragments rather than | RNA, and the probe is RNA extracted from a tissue a |
of biological macromolecules such as proteins, | RNA, and DNA. |
Pstart element has been shown to function as an | RNA, and is present in the 5' untranslated regions |
vers research on nucleic acids, such as DNA and | RNA, and related work. |
production of large amounts of stable messenger | RNA, and therefore proteins. |
In July 2006, a team analyzed the virus' | RNA and determined the genetic changes that have oc |
g blocks of life, e.g., nucleotides for DNA and | RNA and amino acids for proteins. |
tein that is essential for the translocation of | RNA and proteins through the nuclear pore complex. |
of an automated process for the manufacture of | RNA, and the invention of the drug Ganciclovir. |
a cell, including the interactions between DNA, | RNA and protein biosynthesis, as well as how these |
TNA can hybridize with | RNA and DNA in a sequence-specific manner; this cap |
sequences that are complementary to the target | RNA and basepair to the regions flanking the uridin |
The backbone of | RNA and DNA are structurally similar, but RNA is si |
me viruses have genomes made of double-stranded | RNA and other viruses have single-stranded DNA geno |
e 1980's, the pH is usually adjusted to 7.5 for | RNA and 8.0 for DNA. |
inding proteins may regulate the translation of | RNA, and post-transcriptional events, such as RNA s |
at repair oxidatively damaged proteins, lipids, | RNA, and DNA, and his laboratory has made major con |
also used to lyse cells and virus particles in | RNA and DNA extractions, where its function, in add |
ucted comparative analysis of bacterial DNA and | RNA, and predicted existence of messenger RNA. |
Genes encoding ribosomal | RNA and spacers occur in tandem repeats that are th |
dying the function and biogenesis of non-coding | RNA and the proteins that interact with RNA. |
nctional virus could be created out of purified | RNA and a protein coat. |
t the genetic control of viral reproduction was | RNA and that it is carried in the nucleic core of e |
ver, the genetic data, complex structure of the | RNA and the failure to detect a protein involved in |
The ribosomal | RNA and transfer RNA genes belong to the class of m |
that ribosome modulation factor binds ribosomal | RNA, and many cis-regulatory RNAs called ribosomal |
ds are the ability to perform trans-splicing of | RNA and possession glycosomes where much of glycoly |
Non-standard nucleosides are also found in both | RNA and DNA and usually arise from modification of |
s a possible functional association between the | RNA and the protein. |
The primer is allowed to anneal to the | RNA and reverse transcriptase is used to synthesize |
Its job is to recognize stop codons in | RNA and bind to them. |
(We will capitalize the names of sites in | RNA and italicize the names of the corresponding DN |
l, but it was discovered to be transcribed into | RNA and quickly removed during processing of the pr |
NrrF acts as an antisense | RNA and is complementary to the junction between th |
new proteins via the use of ribonucleic acids ( | RNA) and ribosomes. |
involved in the 3' end processing of ribosomal | RNA and snoRNAs. |
s a protein structural domain that binds DNA or | RNA and is thus commonly found in transcription fac |
edicine "for the synthesis of the nucleic acids | RNA and DNA." |
It binds DNA and | RNA and is the acting component of diminazene acetu |
After a while, Spiegelman took some | RNA and moved it to another tube with fresh solutio |
uses, this prevents the virus from exposing its | RNA, and in rhinoviruses it also prevents the virus |
he electropositive surface of RRMs 1 and 2 is a | RNA annealing domain while the cleft between RRMs 1 |
(2010) Molecular Interplay of the Non-coding | RNA ANRIL and Methylated Histone H3 Lysine 27 by Po |
o acid peptide toxin (ldrD) and a 60 nucleotide | RNA antitoxin. |
Thus, this novel noncoding | RNA appears to have an important structural role in |
Pyrococcus C/D box small nucleolar | RNA are non-coding RNA (ncRNA) molecules identified |
DNA and | RNA are the main nucleic acids |
These studies show that roX | RNA are essential for dosage compensation where tha |
Protein and | RNA are transported in particles (white dots) from |
The double stranded regions of | RNA are formed by base-pairing between residues in |
The exact 5' and 3' ends of this | RNA are uncertain. |
Organisms containing OLE | RNA are predominantly extremophiles and anaerobes. |
The only known RNAs that are longer than OLE | RNA are ribozymes such as the group II intron and r |
f several DNA copies of a target sequence using | RNA as a template. |
ncode a protein, or it may work at the level of | RNA, as in the case of genes encoding microRNAs. |
rchers to use genetic material called ribosomal | RNA as a molecular probe to detect pathogenic micro |
scovered the first bacteriophage that contained | RNA as its genetic material. |
n acidobacteria, and appears to be a non-coding | RNA as it does not have a consistent association wi |
ar Trek novels during the 1980s employed memory | RNA as a plot device to allow a character to rapidl |
One commentator has characterized antisense | RNA as one of "dozens of technologies that are gorg |
are manufactured, the gene is first copied into | RNA as an intermediate product. |
boratory currently studies structural motifs in | RNA as well as proteins, as part of the RNA Ontolog |
eates single-stranded DNA using single-stranded | RNA as a template. |
he iscR mRNA fragment identified the intergenic | RNA at the 3' end. |
atory demonstrated that a mixture containing no | RNA at all but only RNA bases and Q-Beta Replicase |
de the pseudouridylation of the U5 spliceosomal | RNA at position U43. |
Examples: rRNA/rDNA, RNase P | RNA, ATPase, RecA protein (involved in genetic reco |
The | RNA averages roughly 610 nucleotides in length. |
methyl group (-CH3) to the 2'-O position in the | RNA backbone. |
tors offer the promise of individually tailored | RNA based drugs which respond to genes, small molec |
ne triphosphate, the main source of CMP is from | RNA being decomposed, eg. by RNAse. |
This complex cleaves the | RNA between the polyadenylation sequence and the GU |
σE), where DsrA in conjunction with the Sm like | RNA binding protein, Hfq promote the translation of |
slation stages A through F. A ribosome with its | RNA binding sites, designated E, P, and A, is stuck |
Poly(A) | RNA Binding Protein PABP, PDB 1CVJ |
is now clear that Hfq is an abundant bacterial | RNA binding protein which has many important physio |
tein of the arginine-rich motif (ARM) family of | RNA binding proteins, binds to a 15-nucleotide (nt) |
rst 105 amino acid was shown to be critical for | RNA binding and re-localisation to SGs. |
motifs, RNP1 and RNP2, originally described in | RNA binding proteins, and required for DNA binding. |
CsrC | RNA binds multiple copies of CsrA Pfam:PF02599, a p |
works with his wife, Christine Guthrie, a noted | RNA biochemist, geneticist and faculty at UCSF. |
, Parkinson's disease, spinal muscular atrophy, | RNA biochemistry, protein synthesis, neuroanatomica |
RNA Biology is a peer reviewed scientific journal i | |
Patricia Thomas, developer of the | RNA blot which then became known as the northern bl |
RNA Board of Directors - Religion Newswriters Assoc | |
transcription process of DNA genetic code into | RNA, brought him 1989 Nobel Prize |
cleic acid (TNA) is a polymer similar to DNA or | RNA but differing in the composition of its "backbo |
biological macromolecules such as proteins and | RNA, but can also be used for polysaccharides and o |
POBEC3G are believed to act by editing ssDNA or | RNA by removing an amino group from cytidine, intro |
ate with enzymes and guide them to a spot on an | RNA by basepairing to that RNA. |
se ribonuclease, which are enzymes that degrade | RNA by removing terminal nucleotides from either th |
mir-395 is a non-coding | RNA called a microRNA that was identified in both A |
miR-196 is a non-coding | RNA called a microRNA that has been shown to be exp |
50S is composed of proteins and single-strand | RNA called ribosomal RNA (rRNA). |
nd the formation of a channel through which the | RNA can enter the cell. |
As with DNA, | RNA can be delivered to cells by a variety of means |
RNA can also be altered by having its nucleotides m | |
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 | |
Like DNA, this | RNA cannot be translated into protein directly. |
In addition to providing direct evidence for | RNA catalysis in the spliceosome, and thus, settlin |
RNA catalysis | |
Spiegelman Monster is the name given to an | RNA chain of only 218 nucleotides that is able to b |
Bacterial RNase P has two components: an | RNA chain, called M1 RNA, and a polypeptide chain, |
acitidine can be incorporated into both DNA and | RNA chains. |
InvR has been shown to bind the | RNA chaperone Hfq in vitro and Hfq is required for |
The | RNA chaperone Hfq acts to enhance binding of NrrF o |
Therefore, it was proposed that these two | RNA classes have the same function. |
Two such | RNA classes were identified and called the PhotoRC- |
al repression and Argonaute-catalyzed messenger | RNA cleavage. |
genetic code is traditionally represented as a | RNA codon table due to the biochemical nature of th |
ut it to use to form the first three-nucleotide | RNA codons, which coded for the amino acid phenylal |
ring to nucleic acid molecules, such as DNA and | RNA, collectively referred to as nucleic acid nomen |
naturally occurring pseudoknot is found in the | RNA component of human telomerase. |
For example, the Telomerase | RNA component contains a pseudoknot that is critica |
ar Ribo-Nucleic Acid (U4 snRNA) is a non-coding | RNA component of the major or U2-dependent spliceos |
on of a gene is that portion of a gene's DNA or | RNA, composed of exons, that codes for protein. |
H5N1 after 2001 has been suggested to result in | RNA conformational shift, favouring an alternative |
DNA and | RNA contain phosphate in their structure. |
Although the gene for this | RNA contains open reading frames, translation studi |
the first codon of the genetic code showed that | RNA controlled the production of specific types of |
er protein content than the bacterial ones, the | RNA cores from all three lineages are homologous -- |
In 2003, Black demonstrated that Nucline | RNA could perform Boolean and arithmetic operations |
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 |
s; for example, in the protein-bound state, the | RNA could form an intrinsic transcription terminati |
lthough it was initially designed for ribosomal | RNA data, it can be used for any nucleic and amino |
RNases of many different classes, showing that | RNA degradation is a very ancient and important pro |
In addition, active | RNA degradation systems are a first defense against |
e expression via an increased rate of messenger | RNA degradation. |
a comprehensive means of analyzing patterns of | RNA degradation. |
In plants, SDN (small | RNA degrading nuclease) family members degrade miRN |
The proteins associated with each | RNA depend on the type of snoRNA molecule (see snoR |
y, PSI-6130 inhibits the hepatitis C virus NS5B | RNA dependant RNA polymerase. |
It cleaves either single or double stranded | RNA depending on the enzyme. |
quence of bases in the genetic material (DNA or | RNA) determines the sequence of amino acids for whi |
ed DNA-damage inducible gene 7) is a non-coding | RNA discovered in the ovaries of the chinese hamste |
Nucleic acid ( | RNA, DNA) partitions in the aqueous phase, while pr |
that is, the majority of cells containing viral | RNA do not produce infectious virus. |
Viroid | RNA does not code for proteins. |
This pre-miR-21 is then cut in to a short | RNA duplex by Dicer in the cytosol. |
op motif and a receptor motif located within an | RNA duplex, creating a tertiary contact that stabil |
n ribonuclease activity that degrades the viral | RNA during the synthesis of cDNA, as well as DNA-de |
iology to signal the end of a section of DNA or | RNA during gene duplication in cells. |
It is thought that the proteins may be | RNA editing enzymes and have roles in growth or cel |
RNA editing in the mRNA has been reported. | |
The type of | RNA editing that occurs in the pre-mRNA of GluR-6 i |
The initial demonstration of | RNA editing in rat. |
RNA editing by APOBEC-1 requires homodimerisation a | |
that the protein may also be involved in other | RNA editing or RNA processing events. |
RNA editing of this receptor occurs at 4 locations | |
RNA editing is extensively studied in relation to i | |
A to I | RNA editing is catalyzed by a family of adenosine d |
the first two subtypes have been shown to have | RNA editing activity. |
Alongside | RNA editing, alternative splicing allows a range of |
Cytidine to Uridine (C to U) | RNA editing. |
The pre-mRNA of this protein is subject to | RNA editing. |
t indicates that atopy could be associated with | RNA editing.Atopy is characterized by enhanced immu |
most cells have other enzymes that can degrade | RNA, either from the 3' or 5' end of the RNA, the e |
Gammaretrovirus core encapsidation signal is an | RNA element known to be essential for stable dimeri |
e BiP internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of Bi |
c-myc internal ribosome entry site (IRES) is an | RNA element present in the 5' UTR of the mRNA of C- |
These results suggest that this intergenic | RNA element acts as a iscR mRNA stability element b |
e APC internal ribosome entry site (IRES) is an | RNA element which is located in the coding sequence |
N-myc internal ribosome entry site (IRES) is an | RNA element found in the n-myc gene. |
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. |
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