「RNA」の共起表現一覧(2語右で並び替え)5ページ目
該当件数 : 1142件
ed with epidermal growth factor receptor EGFR), | RNA stabilization products with its Armored RNA tec |
CMKLR1 shows wide | RNA expression profile but is notably high in plasm |
The | RNA fold programme characterised a putative double |
is will reduce transcription simply by blocking | RNA polymerase progression along the DNA template. |
he purpose of TE buffer is to solubilize DNA or | RNA, while protecting it from degradation. |
ar ribonucleoproteins (hnRNPs) are complexes of | RNA and protein present in the cell nucleus during |
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. |
Poly(A) | RNA Binding Protein PABP, PDB 1CVJ |
rge number of cellular processes including DNA, | RNA and protein synthesis. |
It has been used to find interactions between | RNA and protein (one protein but many RNA species p |
The more DNA, | RNA or protein in the sample, the more light is abs |
rotein shows sequence similarity to the E. coli | RNA polymerase-binding protein HepA. |
egment of DNA may retain the ability to produce | RNA or protein in the transgenic organism, or it ma |
ription terminators that require Rho factor, an | RNA helicase protein complex, to disrupt the nascen |
a cell, including the interactions between DNA, | RNA and protein biosynthesis, as well as how these |
Hua-Enhancer1 (HE1) is a | RNA methyltransferase protein that plays a role in |
is now clear that Hfq is an abundant bacterial | RNA binding protein which has many important physio |
lab currently focuses on "Molecular biology of | RNA picornaviruses; protein translation, proteolyti |
logenetic trees are typically created from DNA, | RNA or protein sequence data. |
, Parkinson's disease, spinal muscular atrophy, | RNA biochemistry, protein synthesis, neuroanatomica |
Ribosomes translate | RNA into protein and because they have slightly dif |
σE), where DsrA in conjunction with the Sm like | RNA binding protein, Hfq promote the translation of |
ene product is the biochemical material, either | RNA or protein, resulting from expression of a gene |
blot) that employ similar principles, but using | RNA or protein, have later been named in reference |
is usually devoid of annotated features such as | RNA or protein-coding genes. |
H and began to study the steps that relate DNA, | RNA and protein. |
t a pseudogene that does not generate messenger | RNA or protein. |
tein that is essential for the translocation of | RNA and proteins through the nuclear pore complex. |
ribosome, the molecular machine that translates | RNA into proteins, is fundamentally a ribozyme, com |
tein of the arginine-rich motif (ARM) family of | RNA binding proteins, binds to a 15-nucleotide (nt) |
clude: translation initiation factors that bind | RNA, polyA-binding proteins, snRNPs, ADAR, etc. |
motifs, RNP1 and RNP2, originally described in | RNA binding proteins, and required for DNA binding. |
ated at The Scripps Research Institute, screens | RNA samples provided by investigators on a custom-d |
l, but it was discovered to be transcribed into | RNA and quickly removed during processing of the pr |
The largest individual HIV | RNA reductions ranged up to -2.5 log10 among patien |
Guanosine is required for an | RNA splicing reaction in mRNA, when a "self-splicin |
Examples: rRNA/rDNA, RNase P | RNA, ATPase, RecA protein (involved in genetic reco |
In a last step, | RNA is recovered from the aqueous phase by precipit |
PhotoRC | RNA motifs refer to conserved RNA structures that a |
ring to nucleic acid molecules, such as DNA and | RNA, collectively referred to as nucleic acid nomen |
The Lnt | RNA motif refers to a conserved RNA structure found |
The Pseudomon-Rho | RNA motif refers to a conserved RNA structure that |
Small nucleolar | RNA F1/F2/snoR5a refers to a group of related non-c |
Temperature-sensitivity of an | RNA thermometer region in the rpoh gene compared wi |
iR-101 microRNA precursor is a small non-coding | RNA that regulates gene expression. |
miR-30 microRNA precursor is a small non-coding | RNA that regulates gene expression. |
ry element or cis-element is a region of DNA or | RNA that regulates the expression of genes located |
SRG1 | RNA (SER3 regulatory gene 1) is a non-coding RNA wh |
vers research on nucleic acids, such as DNA and | RNA, and related work. |
A pre-cell allowed the | RNA to remain in close proximity with other RNA mol |
However, the function of this | RNA motif remains unknown. |
(proofreading) and 5'->3' exonuclease activity ( | RNA primer removal). |
RNA splicing removes the non-coding RNA introns lea | |
POBEC3G are believed to act by editing ssDNA or | RNA by removing an amino group from cytidine, intro |
se ribonuclease, which are enzymes that degrade | RNA by removing terminal nucleotides from either th |
virus internal ribosome entry site (IRES) is an | RNA element required for the production of capsid p |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) reside A590. |
to guide the 2'-O-methylation of 28S ribosomal | RNA (rRNA) residue A-2634 . |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) residue C4506 . |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) residue G601. |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) residue A3764 . |
ide the 2'O-ribose methylation of 18S ribosomal | RNA (rRNA) residue C517. |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) residue A4493 . |
ide the 2'O-ribose methylation of 28S ribosomal | RNA (rRNA) residue G4020. |
NA-induced transcriptional silencing, a form of | RNA interference responsible for genomic maintenanc |
It works by inhibiting the bacterial enzyme | RNA polymerase, resulting in the death of Clostridi |
nfirmed the siRNAs were produced from the large | RNA structure RevCen in vivo. |
st step is reverse transcription (RT), in which | RNA is reverse transcribed to cDNA using reverse tr |
The | RNA is reverse transcribed with either polyT primer |
The primer is allowed to anneal to the | RNA and reverse transcriptase is used to synthesize |
nclude transfer ribonucleate sulfurtransferase, | RNA sulfurtransferase, ribonucleate sulfurtransfera |
50S is composed of proteins and single-strand | RNA called ribosomal RNA (rRNA). |
ased on analysis of mitochondrial 12S ribosomal | RNA, 16S ribosomal RNA and cytochrome-c oxidase I ( |
new proteins via the use of ribonucleic acids ( | RNA) and ribosomes. |
The | RNA Ligase ribozyme was the first of several types |
The only known RNAs that are longer than OLE | RNA are ribozymes such as the group II intron and r |
y, PSI-6130 inhibits the hepatitis C virus NS5B | RNA dependant RNA polymerase. |
RNAs as well as the Trypanosoma spliced leader | RNA (SL RNA) as possibly other, still unknown cellu |
For some | RNA (non-coding RNA) the mature RNA is the final ge |
g two annealed nucleic acid strands (i.e., DNA, | RNA, or RNA-DNA hybrid) using energy derived from A |
essed from the larger transcript into a shorter | RNA that roughly corresponds to the conserved, ~610 |
The | RNA averages roughly 610 nucleotides in length. |
5S ribosomal | RNA (5S rRNA) is a component of the large ribosomal |
In molecular biology the 5.8S ribosomal | RNA (5.8S rRNA) is a non-coding RNA component of th |
n Nuclease has higher specificity for ssDNA and | RNA than S1 Nuclease, it is the enzyme of choice fo |
ethods are used in molecular biology to isolate | RNA from samples, the most common of these is Guani |
or stem-loop destabilising element (SLDE) is an | RNA element secreted by fibroblasts and endothelial |
computationally predicts the structures of the | RNA input sequences rather than requiring experimen |
When 16S ribosomal | RNA gene sequencing and other research showed in 19 |
These | RNA oligonucleotides serve as primers for DNA synth |
ransfer ribonucleate synthetase, seryl-transfer | RNA synthetase, seryl-transfer ribonucleic acid syn |
H5N1 after 2001 has been suggested to result in | RNA conformational shift, favouring an alternative |
A small hairpin | RNA or short hairpin RNA (shRNA) is a sequence of R |
ular biologist whose research interests include | RNA polymerase, sigma factors, regulation of gene t |
The Heron HBV | RNA encapsidation signal epsilon is an RNA structur |
oop (the stem-loop closest to the 5' end of the | RNA) has significant covariation in support of its |
An example of an | RNA stem-loop, similar to what is seen in the RNA r |
stranded nucleic acid fragments, such as DNA or | RNA, or similar fragments of analogs of nucleic aci |
FGs could predict the secondary structure of an | RNA molecule similarly to existing techniques: such |
are cis-regulatory elements functioning at the | RNA level, since bacterial cis-regulatory RNAs typi |
After digestion of the | RNA, a single stranded DNA (ssDNA) is left and beca |
all other fully sequenced virus species with an | RNA or single-stranded DNA genome. |
he development of gene silencing nucleic acids ( | RNA interference/ siRNA/ antisense oligonucleotides |
slation stages A through F. A ribosome with its | RNA binding sites, designated E, P, and A, is stuck |
U14 small nucleolar | RNA (U14 snoRNA) is a non-coding RNA required for e |
involved in the 3' end processing of ribosomal | RNA and snoRNAs. |
The U7 small nuclear | RNA (U7 snRNP) is an RNA molecule involved in the s |
Genes encoding ribosomal | RNA and spacers occur in tandem repeats that are th |
Northern blot analysis also indicated this | RNA undergoes specific cleavage processing. |
ons: non-specific degradation of the (+)-strand | RNA genome, specific removal of the (-)-strand tRNA |
he potential magnesium-sensing capacity of this | RNA is still unclear, though a recent report sugges |
assisting the in vitro process of transcribing | RNA, it stimulates T4 polynucleotide kinase and T7 |
Antizyme | RNA frameshifting stimulation element is a structur |
Small temporal | RNA (abbreviated stRNA) regulates gene expression d |
ents that preferentially modify the backbone of | RNA in structurally flexible regions. |
he Flavivirus capsid hairpin cHP is a conserved | RNA hairpin structure identified within the capsid |
The Influenza virus pseudoknot is an | RNA pseudoknot structure formed in one of the non-s |
Structure group: the group develops protein and | RNA 3-D structure prediction methods based on graph |
he frequency of frameshifting is increased by a | RNA secondary structure located on the 3' side of t |
r of cellular processes involving alteration of | RNA secondary structure such as translation initiat |
They showed that this region formed an | RNA secondary structure that occludes the shine-dal |
Predicted IMES-2 | RNA secondary structure in alphaproteobacterium HIM |
mediated by the formation of a double-stranded | RNA stem-loop structure in the upstream region of t |
r of cellular processes involving alteration of | RNA secondary structure, such as translation initia |
t and Thi-box riboswitch, is a highly conserved | RNA secondary structure. |
c mSelB/eEFSec) which bind to the corresponding | RNA secondary structures formed by the SECIS elemen |
This | RNA is subsequently digested with RNase III from Es |
O-ribose methylation of the large 28S ribosomal | RNA (rRNA) subunit on residue G4198 . |
kers include elongation and initiation factors, | RNA polymerase subunits, DNA gyrases, heat shock an |
RNA thermometers such as FourU control regulation o | |
icient transcription of various small noncoding | RNA genes, such as tRNA, 5S rRNA, SRP RNA and U6 sn |
tion and strand-displacement by specific signal | RNA sequences such as HIV RNA and oncogene RNA. |
Studies have shown that treating | RNA viruses such as poliovirus with ribavirin produ |
piRNA is part of TaveRNA | RNA software suite. |
he SOS response represses transcription of SymR | RNA, allowing SymE toxin to degrade potentially dam |
In addition, active | RNA degradation systems are a first defense against |
genetic code is traditionally represented as a | RNA codon table due to the biochemical nature of th |
RNA residues targeted for pseudouridylation by this | |
alled IsrK, which was identified among numerous | RNA molecules that bind to the Hfq protein, a prote |
n intron, and the snRNP subunits bring fold the | RNA so that the 5' and 3' ends of the intron are jo |
It is an unusual guide | RNA in that it its composed of both H/ACA box and a |
Purine riboswitches are | RNA structures that regulate protein biosynthesis i |
The type of | RNA editing that occurs in the pre-mRNA of GluR-6 i |
ted into Xenopus oocytes to ultimately find the | RNA species that induced the expression of sodium-g |
tRNA is the only | RNA species that contains the nucleoside thymidine. |
e Hepatitis B virus PREbeta (HBV PREbeta) is an | RNA structure that is shown to play a role in nucle |
iR-124 microRNA precursor is a small non-coding | RNA molecule that has been identified in flies (MI0 |
ALIL pseudoknot is an | RNA element that induces frameshifting in bacteria. |
irus type 1 major splice donor (HIV-1 SD) is an | RNA structure that is shown to modulate splicing ef |
That is, trans-splicing results in an | RNA transcript that came from multiple RNA polymera |
DNA sequences or | RNA transcripts that have moderate to high sequence |
Ribosomal protein leaders are | RNA sequences that are a part of the 5' UTR of mRNA |
microRNA precursor family are small non-coding | RNA genes that regulate gene expression. |
Several important biological processes rely on | RNA molecules that form pseudoknots. |
SMKbox riboswitch (also known as SAM-III) is a | RNA element that regulates gene expression in bacte |
The bacterial glycine riboswitch is an | RNA element that can bind the amino acid glycine. |
lso known as RFN element) is a highly conserved | RNA element that is found frequently in the 5'-untr |
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 |
rsor that is processed into 24 nucleotide sized | RNA fragments that target the 3'UTR of viral DNA po |
A primary transcript is an | RNA molecule that has not yet undergone any modific |
FinP encodes an antisense non-coding | RNA gene that is complementary to part of the TraJ |
r family is a group of related small non-coding | RNA genes that regulates gene expression. |
The Varkud satellite (VS) ribozyme is an | RNA enzyme that carries out the cleavage of a phosp |
iR-194 microRNA precursor is a small non-coding | RNA gene that regulated gene expression. |
ase E 5' UTR element is a previously identified | RNA structure that is also found in the 5' UTRs of |
sp70) internal ribosome entry site (IRES) is an | RNA element that allows cap independent translation |
cterized by a positive-stranded single stranded | RNA genome that is rod-shaped and non-enveloped in |
Riboprobes are | RNA probes that can be produced by in vitro transcr |
in the strict sense, hnRNA may include nuclear | RNA transcripts that do not end up as cytoplasmic m |
wo nucleotides on opposite complementary DNA or | RNA strands that are connected via hydrogen bonds a |
Co-precipitation of U19 snoRNA with RNase MRP | RNA suggests that U19 may be involved in pre-rRNA p |
The Sxy 5' UTR element is an | RNA element that controls expression of the sxy gen |
t the genetic control of viral reproduction was | RNA and that it is carried in the nucleic core of e |
-antitoxin system, the translation of messenger | RNA (mRNA) that encodes the toxin is inhibited by t |
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 |
lyzes the attachment of the 5' cap to messenger | RNA molecules that are in the process of being synt |
Hepatitis B virus PREalpha (HBV PREalpha) is an | RNA structure that is shown to play a role in nucle |
miR-24 microRNA precursor is a small non-coding | RNA molecule that regulates gene expression. |
Sib | RNA regulates the expression of a toxic protein in |
strand to sib, so the antisense-binding of Sib | RNA with the ibs mRNA brings about dsRNA-mediated d |
The target of Sar | RNA in the ant mRNA. |
Human fibroblasts transfected with | RNA encoding the protein Lin28 (green). |
DNA and | RNA are the main nucleic acids |
quence of bases in the genetic material (DNA or | RNA) determines the sequence of amino acids for whi |
Later sequence analysis predicted that this | RNA guides the pseudouridylation of position U40 in |
een the viral non-structural proteins and viral | RNA and the role of cellular proteins in non-envelo |
ter chemical or enzymatic extraction of DNA and | RNA from the tissue (Lillie et al., 1976). |
n ribonuclease activity that degrades the viral | RNA during the synthesis of cDNA, as well as DNA-de |
tac is the functional analog of U4 spliceosomal | RNA in the major U2-type spliceosomal complex. |
ollection of isolated DNA fragments rather than | RNA, and the probe is RNA extracted from a tissue a |
f" certain Genes by introducing synthetic short | RNA into the cell. |
There are multiple copies of class I | RNA in the D. discoideum genome and the RNA is high |
ired for the efficient translation of the viral | RNA in the pancreas. |
こんにちは ゲスト さん
ログイン |
Weblio会員(無料)になると 検索履歴を保存できる! 語彙力診断の実施回数増加! |
こんにちは ゲスト さん
ログイン |
Weblio会員(無料)になると 検索履歴を保存できる! 語彙力診断の実施回数増加! |