「rn a」の共起表現一覧(1語左が「of」)
該当件数 : 81件
CTD of | RNA polymerase |
inding proteins may regulate the translation of | RNA, and post-transcriptional events, such as RNA s |
d transcriptional silencing (RITS) is a form of | RNA interference by which short RNA molecules - suc |
Trans-splicing is a form of | RNA processing. |
The initial demonstration of | RNA editing in rat. |
t might be usefull for increasing efficiency of | RNA isolation. |
They consist of | RNA genomes between 246-375 nucleotides in length. |
made several contributions to the synthesis of | RNA and novel RNA structures. |
Electrophoresis of | RNA samples can be used to check for genomic DNA co |
This gene encodes a subunit of | RNA polymerase II, the polymerase responsible for s |
The backbone of | RNA and DNA are structurally similar, but RNA is si |
Trans-splicing is a special form of | RNA processing in eukaryotes where exons from two d |
lab currently focuses on "Molecular biology of | RNA picornaviruses; protein translation, proteolyti |
The structural basis for binding of | RNA to the argonaute protein has been examined by X |
These genes encode a subunit of | RNA polymerase, and it is hypothesized that Lacto-r |
cleave off an extra, or precursor, sequence of | RNA on tRNA molecules . |
plays a role in the promotion and repression of | RNA transcription. |
e other amatoxins, amanullin is an inhibitor of | RNA polymerase II. |
extension is a technique whereby the 5' ends of | RNA or DNA can be mapped. |
a comprehensive means of analyzing patterns of | RNA degradation. |
Synthesis and Cytoplasmic Transfer Rates of | RNA Molecules in Mononuclear And Sendai Virus-Induc |
This then results in increased synthesis of | RNA in many different tissues in the body. |
livery of designed shRNA's and the mechanism of | RNA interference in mammalian cells. |
is found in all species and in many classes of | RNA except mRNA. |
They are the most common determinant of | RNA stability in mammalian cells. |
suggests a relationship with the phenomenon of | RNA interference. |
tion is a process by which the transcription of | RNA is increased. |
other amatoxins, amaninamide is an inhibitor of | RNA polymerase II. |
ike other amatoxins, ε-amanitin an inhibitor of | RNA polymerase II. |
Abelson was a key figure in the elucidation of | RNA splicing. |
MED12, or mediator of | RNA polymerase II trancription, subunit 12 homolog |
NA-induced transcriptional silencing, a form of | RNA interference responsible for genomic maintenanc |
, but not displacement loop, is for the loop of | RNA that forms the end of the D arm of a transfer R |
d a new section for descriptions of families of | RNA molecules in December 2008 and requires contrib |
The lab also studies the dynamic mechanism of | RNA splicing, the RNA-binding proteins that determi |
ribozymes because they catalyze the assembly of | RNA fragments into phosphodiester RNA polymers, a r |
ar ribonucleoproteins (hnRNPs) are complexes of | RNA and protein present in the cell nucleus during |
er proteins often bind the C-terminal domain of | RNA polymerase in order to activate polymerase acti |
sion can be used to determine the start site of | RNA transcription for a known gene. |
It consists of | RNA polymerase II, a subset of general transcriptio |
ific endonuclease and catalyzes the cleavage of | RNA via a hydrolytic mechanism. |
wn to act as methylation guides for a number of | RNA targets. |
anscription factor that affects the affinity of | RNA polymerase for specific promoters on DNA |
the phosphorylated carboxyl-terminal domain of | RNA polymerase II; therefore it is specific to RNAs |
activator and binds to the C-terminal domain of | RNA polymerase II holoenzyme, acting as a bridge be |
Adding an artificial form of | RNA, poly-U, to this extract caused it to make a pr |
ent method for pairwise structural alignment of | RNA sequences with low sequence identity has been p |
ch a ribosome begins to translate a sequence of | RNA into amino acids. |
The carboxy-terminal domain of | RNA polymerase II typically consists of up to 52 re |
r of cellular processes involving alteration of | RNA secondary structure, such as translation initia |
ents that preferentially modify the backbone of | RNA in structurally flexible regions. |
The type of | RNA editing that occurs in the pre-mRNA of GluR-6 i |
ncode a protein, or it may work at the level of | RNA, as in the case of genes encoding microRNAs. |
n mapping of the termini and exon structures of | RNA transcripts (commonly termed Berk-Sharp or S1 M |
hylation is a common nucleoside modification of | RNA, where a methyl group is added to the 2' hydrox |
tein that is essential for the translocation of | RNA and proteins through the nuclear pore complex. |
This CAP-cAMP complex promotes the binding of | RNA polymerase to the lac promoter, which leads to |
of an automated process for the manufacture of | RNA, and the invention of the drug Ganciclovir. |
onal recognition in Genetics for his studies of | RNA interference in collaboration with the laborato |
r of cellular processes involving alteration of | RNA secondary structure such as translation initiat |
In eukaryotes, modifications of | RNA nucleotides are generally directed by small nuc |
e consortium that produces the Rfam database of | RNA families. |
enomes of viruses whose genomes are composed of | RNA, such as Influenzavirus A and retroviruses like |
ds are the ability to perform trans-splicing of | RNA and possession glycosomes where much of glycoly |
- it is said to be relaxed and no regulation of | RNA production due to amino acid absence is seen. |
tein of the arginine-rich motif (ARM) family of | RNA binding proteins, binds to a 15-nucleotide (nt) |
n, which is an ATPase activated by a variety of | RNA species but not by dsDNA. |
stimulation element is a conserved stem-loop of | RNA found in coronaviruses that can promote ribosom |
utions to science include the identification of | RNA polymerase II(B), the identification of transcr |
the Cajal bodies and guide the modification of | RNA polymerase II transcribed spliceosomal RNAs U1, |
the Cajal bodies and guide the modification of | RNA polymerase II transcribed spliceosomal RNAs U1, |
the Cajal bodies and guide the modification of | RNA polymerase II transcribed spliceosomal RNAs U1, |
-Seq), also referred to as parallel analysis of | RNA ends (PARE), a modified 5'-rapid amplification |
nesin and the sub-nanometer stepping motions of | RNA polymerase on a DNA template. |
The double stranded regions of | RNA are formed by base-pairing between residues in |
the Cajal bodies and guide the modification of | RNA polymerase II transcribed spliceosomal RNAs U1, |
The score is based on the amount of | RNA from each gene in a 20-gene panel comprising 11 |
ion contains promoters for the transcription of | RNA from the two strands of mitochondrial DNA immed |
IM 602102), to cause transcriptional pausing of | RNA polymerase II (see MIM 180660). |
response in bacteria, causing the inhibition of | RNA synthesis when there is a shortage of amino aci |
being the first gene in which the phenomenon of | RNA interference was observed; researchers intendin |
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