「rn a」の共起表現一覧(1語左で並び替え)2ページ目
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The atoC | RNA motif is a conserved RNA-like structure identif |
Probable ATP-dependent | RNA helicase DHX36 also known as DEAH box protein 3 |
Probable ATP-dependent | RNA helicase DDX5 also known as DEAD box protein 5 |
Probable ATP-dependent | RNA helicase DDX17 (p72) is an enzyme that in human |
name of this enzyme class is ATP:[DNA-directed | RNA polymerase] phosphotransferase. |
The ATPC | RNA motif is a conserved RNA structure found in cer |
, Parkinson's disease, spinal muscular atrophy, | RNA biochemistry, protein synthesis, neuroanatomica |
The Bacillaceae-1 | RNA motif is a conserved RNA structure identified b |
is now clear that Hfq is an abundant bacterial | RNA binding protein which has many important physio |
It is thought that the proteins may be | RNA editing enzymes and have roles in growth or cel |
e authors considered them deuterostomes, before | RNA trees placed them together with the trochozoans |
tarted, and it doesn't explain what came before | RNA. |
It has been used to find interactions between | RNA and protein (one protein but many RNA species p |
se, enzyme IIl4ac, gene glC proteins, gene bglC | RNA formation factors, PEP-dependent phosphotransfe |
ains also appear to possess the ability to bind | RNA. |
clude: translation initiation factors that bind | RNA, polyA-binding proteins, snRNPs, ADAR, etc. |
The Lysine riboswitch is a metabolite binding | RNA element found within certain messenger RNAs tha |
is will reduce transcription simply by blocking | RNA polymerase progression along the DNA template. |
Northern blot ( | RNA) |
small Cajal body-specific | RNA 18 (also known as U91 or U4-8) is a type of sma |
Non-standard nucleosides are also found in both | RNA and DNA and usually arise from modification of |
Direct sequencing of cDNAs derived from brain | RNA of INCL patients has shown a mis-sense transver |
linked via a phosphodiester bond to a branched | RNA molecule. |
12 Oct - Brisbane | RNA Showgrounds "Livid Festival" , Australia |
The majority of enzymes are proteins but | RNA enzymes called ribozymes also exist. |
artificially reduced or stopped, for example by | RNA interference, growth stops and the cells eventu |
everse transcriptase, lack LTRs, transcribed by | RNA polymerase II |
promoter element that promotes transcription by | RNA polymerase II when it is located precisely at p |
Louping ill is caused by | RNA virus called Louping ill virus. |
Notable human diseases caused by | RNA viruses include SARS, influenza and hepatitis C |
pound that inhibits transcription elongation by | RNA Polymerase II. |
initiation complex and preventing elongation by | RNA polymerase. |
It is transcribed by | RNA polymerase I as part of the 45S precursor that |
The lack of a durable signature by | RNA viruses means some etiologies, notably the vira |
Eukaryotic 5S rRNA is synthesised by | RNA polymerase III, whereas most other eukaroytic r |
cursor mRNA sequence, but ultimately removed by | RNA splicing during the processing to mature messen |
They are transcribed by | RNA polymerase II, include both intron and exon, an |
p suggesting it is independently transcribed by | RNA pol II . |
Initiation of transcription by | RNA polymerase II requires the activities of more t |
egatively or positively affect transcription by | RNA polymerase II (Pol II). |
sed in the defense mechanisms can be usurped by | RNA viruses for their benefit. |
ect the stability of the open complex formed by | RNA polymerase on DNA and therefore affect promoter |
also be downregulated by blocking elongation by | RNA polymerase (without the need for an effector do |
HL23V is a type C | RNA tumor virus first isolated in 1975 from culture |
The C0465 | RNA is a bacterial non-coding RNA of 78 nucleotides |
The C0719 | RNA is a bacterial non-coding RNA of 222 nucleotide |
The a1, b1 site is upstream of the c4 | RNA, while the a2, b2 site is immediately downstrea |
Thijn Brummelkamp exploited the process called | RNA intereference(RNAi) to selectively study the fu |
eplicating molecules being ribozymes are called | RNA World hypotheses. |
aic virus 35S promoter (CaMV35S), in which case | RNA Polymerase II is used to express the transcript |
sts include the in vitro evolution of catalytic | RNA molecules and the origins of life. |
In retrospect, catalytic | RNA makes a lot of sense. |
d hybridization with a probe made from cellular | RNA. |
As well as cleaning of cellular | RNA that is no longer required, RNases play key rol |
d hybridization with a probe made from cellular | RNA. |
Fusion transcript is a chimeric | RNA encoded by a fusion gene or by two different ge |
The Chlorobi-1 | RNA motif is a conserved RNA secondary structure id |
The Chlorobi-RRM | RNA motif is a conserved RNA structure identified b |
The Chloroflexi-1 | RNA motif is a conserved RNA structure detected by |
ch latent mosaic viroid is a 336-351nt circular | RNA which has a branched formation. |
iroids are very little single-stranded circular | RNA that have no coat protein, and which do not cod |
mechanism underlying the activity of cis-acting | RNA regulatory elements, such as riboswitches. |
cs24 CAESAR is the name given to the cis-acting | RNA element identified in the 3' untranslated regio |
s controlled by another putative cis-regulatory | RNA element called the ykkC-yxkD leader, and nine g |
The ICTV classifies | RNA viruses as those that belong to Group III, Grou |
Nase P) is a type of ribonuclease which cleaves | RNA. |
The Clostridiales-1 | RNA motif is a conserved RNA structure identified b |
HgcC is a small non coding | RNA (ncRNA). |
stretch of genome with no known protein coding | RNA sequences. |
Transcription of the S. coelicolor | RNA increases during sporulation, and three transcr |
ion of the crosslinked and coimmunoprecipitated | RNA. |
rotein shows sequence similarity to the E. coli | RNA polymerase-binding protein HepA. |
The Collinsella-1 | RNA motif denotes a particular conserved RNA struct |
he Flavivirus capsid hairpin cHP is a conserved | RNA hairpin structure identified within the capsid |
t and Thi-box riboswitch, is a highly conserved | RNA secondary structure. |
s also predicted to be regulated by a conserved | RNA structure (see sucA RNA motif and sucA-II RNA m |
lso known as RFN element) is a highly conserved | RNA element that is found frequently in the 5'-untr |
The THF riboswitch was one of many conserved | RNA structures found in a project based on comparat |
Other conserved | RNA structures were originally detected using envir |
A conserved | RNA structure adopted by the a1, b1 site was identi |
Downstream-peptide motif refers to a conserved | RNA structure identified by bioinformatics in the c |
scovered the first bacteriophage that contained | RNA as its genetic material. |
c mSelB/eEFSec) which bind to the corresponding | RNA secondary structures formed by the SECIS elemen |
The CsrB | RNA is a non-coding RNA that binds to approximately |
CsrC | RNA binds multiple copies of CsrA Pfam:PF02599, a p |
of a hammerhead ribozyme, a ribozyme that cuts | RNA |
Cyano-2 | RNA motif |
The Cyano-2 | RNA motif is a conserved RNA structure identified b |
The Cyano-S1 | RNA motif (originally named the Cyano-30S motif) is |
Cyano-S1 | RNA motif |
are decoy receptors, decoy substrates and decoy | RNA. |
in cells and tissues, which can rapidly degrade | RNA. |
most cells have other enzymes that can degrade | RNA, either from the 3' or 5' end of the RNA, the e |
se ribonuclease, which are enzymes that degrade | RNA by removing terminal nucleotides from either th |
Degraded | RNA has less sharpely defined bands, has a smeared |
ine, RNase T1 is often used to digest denatured | RNA prior to sequencing. |
The Vg1 ribozyme is a manganese dependent | RNA enzyme or ribozyme which is currently the small |
ct synergistically with Ochratoxin A to depress | RNA synthesis in murine kidneys. |
he motif might be related to the Desulfotalea-1 | RNA motif, as the motifs share some similarity in c |
DicF | RNA is a non-coding RNA that is an antisense inhibi |
The Dictyoglomi-1 | RNA motif (also called dct-1) is a conserved RNA st |
The Dictyoglomi-1 | RNA motif conserves four bulged-G modules (also cal |
e involved in the degradation of many different | RNA species, including messenger RNA, transfer RNA, |
mples as well as derived products, such as DNA, | RNA, protein and cell lines. |
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. |
H and began to study the steps that relate DNA, | RNA and protein. |
d are widely used in chemical synthesis of DNA, | RNA, and other nucleic acids and their analogs. |
rge number of cellular processes including DNA, | RNA and protein synthesis. |
For DNA, | RNA, and lipids, CHARMM27 is used. |
e structures and interactions of proteins, DNA, | RNA, and other molecules in solutions of different |
The more DNA, | RNA or protein in the sample, the more light is abs |
The absorbance is a natural property of DNA, | RNA, free nucleotides, proteins and some amino acid |
a cell, including the interactions between DNA, | RNA and protein biosynthesis, as well as how these |
As with DNA, | RNA can be delivered to cells by a variety of means |
it is not possible to distinguish between DNA, | RNA, protein or free nucleotides or amino acids in |
logenetic trees are typically created from DNA, | RNA or protein sequence data. |
g two annealed nucleic acid strands (i.e., DNA, | RNA, or RNA-DNA hybrid) using energy derived from A |
his product is then either integrated into DNA, | RNA, or a ribose diphosphate molecule ADP, the prec |
interactions of proteins with radiolabeled DNA, | RNA, ligands, and other small chemicals. |
They bind DNA, | RNA, protein and/or lipid substrates. |
DNA-directed | RNA polymerase II subunit RPB11-a is an enzyme that |
strates of this enzyme are ATP and DNA-directed | RNA polymerase, whereas its two products are ADP an |
as an additive to Doro's | RNA extraction buffer |
an encode proteins that bind to double-stranded | RNA (dsRNA) to prevent the activity of RNA-dependen |
of the mechanical properties of double-stranded | RNA |
These have double-stranded | RNA genomes and are therefore group III viruses. |
g dsRNA into the 21nt strech of double-stranded | RNA. |
cation, which means they have a double-stranded | RNA genome. |
gonaute protein in complex with double-stranded | RNA PDB 1YTU. |
me viruses have genomes made of double-stranded | RNA and other viruses have single-stranded DNA geno |
e RNase III family that cleaves double-stranded | RNA (dsRNA) and pre-microRNA (miRNA) into short dou |
resulting from cleavage of long double-stranded | RNA (dsRNA) with an endoribonuclease such as Escher |
, or ADARB2) is a member of the double-stranded | RNA (dsRNA) adenosine deaminase family of RNA-editi |
e virus consists of two linear, double-stranded | RNA molecules. |
mediated by the formation of a double-stranded | RNA stem-loop structure in the upstream region of t |
The resulting duplex | RNA is then targeted for degradation. |
Each | RNA has a 5' cap and 3' polyadenylation. |
The proteins associated with each | RNA depend on the type of snoRNA molecule (see snoR |
ed with epidermal growth factor receptor EGFR), | RNA stabilization products with its Armored RNA tec |
ene product is the biochemical material, either | RNA or protein, resulting from expression of a gene |
ubsteps of transcription, including elongation, | RNA splicing, and termination and degradation of th |
ly the binding sites for the reproducing enzyme | RNA replicase. |
It works by inhibiting the bacterial enzyme | RNA polymerase, resulting in the death of Clostridi |
d for catalytic activity, as in the core enzyme | RNA polymerase. |
dependent and specific attraction to the enzyme | RNA polymerase II. |
are commonly found in viral genomes, especially | RNA viruses, where they can have a wide range of fu |
dimeric protein complex that affects eukaryotic | RNA polymerase II (Pol II) transcription elongation |
Unlike the eukaryotic | RNA immediately after transcription known as precur |
que, methylene blue can also be used to examine | RNA or DNA under the microscope or in a gel: as an |
at are more or less consistent with an expected | RNA molecule pattern. |
ssary to use phenol or chloroform if extracting | RNA for Northern blotting or DNA for Southern blot |
confused with transcription termination factor, | RNA polymerase I or TTF1. |
kers include elongation and initiation factors, | RNA polymerase subunits, DNA gyrases, heat shock an |
SCFGs have also been used to find | RNA genes using comparative genomics. |
re are some missing steps such as how the first | RNA molecules could be formed. |
The Flavo-1 | RNA motif is a conserved RNA structure that was ide |
The flg-Rhizobiales | RNA motif is an RNA structure that is conserved in |
FlmB | RNA (F leading-region maintenance B) is a family of |
plasmid inherit the FlmB gene, coding for FlmB | RNA which binds the leader sequence of FlmA mRNA an |
FlmB | RNA transcript is 100 nucleotides in length and is |
RsaOG (an acronym for | RNA S. aureus Orsay G) is a non-coding RNA that was |
In addition to providing direct evidence for | RNA catalysis in the spliceosome, and thus, settlin |
This complex is needed for | RNA polymerase to bind to the promoter and transcri |
cture is recognised as a termination signal for | RNA polymerase and the operon is not transcribed. |
Northern blot for | RNA |
It contains a binding site for | RNA polymerase (RNA polymerase I, RNA polymerase II |
e 1980's, the pH is usually adjusted to 7.5 for | RNA and 8.0 for DNA. |
"!" for | RNA, '"$" for DNA, "*" for polymerase |
tRNA-like structures are required for | RNA encapsulation and increase RNA stability. |
is a ncRNA that was identified by screening for | RNA molecules which co-immunoprecipitated with the |
The reagent used specifically for | RNA extraction is sold by Sigma-Aldrich by the name |
o the usage of chemically synthesized siRNA for | RNA Interference (RNAi) is the enzymatic digestion |
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 |
RNA from 5' exonuclease, which degrades foreign | RNA. |
ht of 50 kDa and has been shown to contain four | RNA recognition motifs (RRMs) and a conserved 12-am |
The phenotype to be selected can range from | RNA to peptide to protein. |
ne triphosphate, the main source of CMP is from | RNA being decomposed, eg. by RNAse. |
eotide reductase that makes DNA presursors from | RNA precursors. |
stimulation factor (CStF) are transferred from | RNA Polymerase II to the RNA molecule. |
Yfr1 is a Cyanobacterial functional | RNA that was identified by a comparative genome bas |
nts are spliced together to make the functional | RNA. |
ions of high GC-content might encode functional | RNA products. |
The gabT | RNA motif is the name of a conserved RNA structure |
The gabT | RNA is probably not participating in this mode of r |
GadY | RNA (previously named IS183 in ) is a non-coding RN |
The gamma-150 | RNA motif is a conserved RNA structure that is foun |
cation and is thought to be involved in genomic | RNA packaging although this may not be its only rol |
s of glutamine riboswitches are known: the glnA | RNA motif and Downstream-peptide motif. |
The glnA | RNA motif is a conserved RNA structure that was pre |
glutaminyl-tRNA synthetase, glutaminyl-transfer | RNA synthetase, glutaminyl-transfer ribonucleate sy |
sfer ribonucleate synthetase, glutamyl-transfer | RNA synthetase, glutamyl-transfer ribonucleic acid |
ansfer ribonucleate synthetase, glycyl-transfer | RNA synthetase, glycyl-transfer ribonucleic acid sy |
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