「RNA」の共起表現一覧(2語右で並び替え)6ページ目
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NA) segment, which is a copy of mRNA (messenger | RNA), or the gene itself residing in its original r |
al length and highly conserved structure of OLE | RNA prompted the hypothesis that OLE RNA could be a |
of an automated process for the manufacture of | RNA, and the invention of the drug Ganciclovir. |
This complex cleaves the | RNA between the polyadenylation sequence and the GU |
Binding of the a2, b2 site by the c4 antisense | RNA represses the ant gene. |
18S rRNA is the structural | RNA for the small component of eukaryotic cytoplasm |
of a short stretch of circular, single-stranded | RNA without the protein coat that is typical for vi |
he iscR mRNA fragment identified the intergenic | RNA at the 3' end. |
the replication of the plus-stranded poliovirus | RNA is the synthesis of a complementary minus stran |
The a1, b1 site is upstream of the c4 | RNA, while the a2, b2 site is immediately downstrea |
dying the function and biogenesis of non-coding | RNA and the proteins that interact with RNA. |
This | RNA overlaps the SraC/RyeA RNA on the opposite stra |
coming ribosome pauses because of a knot in the | RNA, then the polypeptide can have time to fold int |
The structural basis for binding of | RNA to the argonaute protein has been examined by X |
In the case of messenger | RNA (mRNA) the RNA is an information carrier coding |
mental results indicate that it overlaps the 6S | RNA of the relevant species, and that the second ha |
ion contains promoters for the transcription of | RNA from the two strands of mitochondrial DNA immed |
ver, the genetic data, complex structure of the | RNA and the failure to detect a protein involved in |
s a possible functional association between the | RNA and the protein. |
For a pure | RNA sample, the A260/230 should be around 2, and fo |
the first codon of the genetic code showed that | RNA controlled the production of specific types of |
tac is the functional analog of U6 spliceosomal | RNA in the major U2-type spliceosomal complex. |
The lab also studies the dynamic mechanism of | RNA splicing, the RNA-binding proteins that determi |
The resulting duplex | RNA is then targeted for degradation. |
stored in DNA genes, transcribed into messenger | RNA, and then translated by the ribosome into the a |
cells or tissue that are actively used to make | RNA, which then may be used to make proteins. |
production of large amounts of stable messenger | RNA, and therefore proteins. |
lation is the control of gene expression at the | RNA level, therefore between the transcription and |
Many eukaryotes also have RdRPs involved in | RNA interference; these amplify microRNAs and small |
e transcription terminator that follows the asd | RNA, and this promoter precedes the downstream gene |
virus which has the largest known non segmented | RNA genome; this is the mouse hepatitis virus (MHV) |
In contrast with other identified | RNA thermometers, this structure serves to downregu |
The 5' end of U7 | RNA is thought to base-pair to a conserved spacer e |
The 109 nucleotide | RNA is thought to be composed of three stem-loops. |
This | RNA is thought to be a regulator of the expression |
sfer ribonucleate synthetase, threonyl-transfer | RNA synthetase, threonyl-transfer ribonucleic acid |
reactions (for example, be incorporated into an | RNA molecule, thus causing the premature terminatio |
ine, RNase T1 is often used to digest denatured | RNA prior to sequencing. |
This allows | RNA polymerase to transcribe the operon. |
ot followed by a poly-Uracil sequence cause the | RNA polymerase to pause, but it will typically cont |
r otherwise become unable to bind DNA, allowing | RNA polymerase to continue transcription. |
an encode proteins that bind to double-stranded | RNA (dsRNA) to prevent the activity of RNA-dependen |
This CAP-cAMP complex promotes the binding of | RNA polymerase to the lac promoter, which leads to |
Thijn Brummelkamp exploited the process called | RNA intereference(RNAi) to selectively study the fu |
This complex is needed for | RNA polymerase to bind to the promoter and transcri |
s exist and these convert cytosines in specific | RNA molecules, to uracil. |
A primase such as dnaG, which generates an | RNA primer to be used in DNA replication. |
Adding an artificial form of | RNA, poly-U, to this extract caused it to make a pr |
In this environment, the | RNA started to replicate. |
Thus, this novel noncoding | RNA appears to have an important structural role in |
This | RNA is transcribed from a region overlapping with a |
DNA and can therefore hybridize anywhere on the | RNA (Reverse transcriptase requires this double-str |
criptional degradation of any nascent messenger | RNA (mRNA) transcripts, which are then used as RNA- |
genomic DNA can be converted to both messenger | RNA and transfer RNA, particularly when there are i |
Only two bacterial RNAs are known (6S | RNA and transfer RNA) to be more highly transcribed |
The ribosomal | RNA and transfer RNA genes belong to the class of m |
CPEB most commonly activates the target | RNA for translation, but can also act as a represso |
Protein and | RNA are transported in particles (white dots) from |
If | RNA is trapped inside, the system can use the RNA o |
cleave off an extra, or precursor, sequence of | RNA on tRNA molecules . |
onucleic acid synthetase, tryptophanyl-transfer | RNA synthetase, tryptophanyl ribonucleic synthetase |
In addition to | RNA processing, turnover and surveillance activitie |
Structurally Sar | RNA forms two stem-loops. |
Ribonucleic acid ( | RNA) with two repeating units (UCUCUCU → UCU CUC UC |
The c4 antisense | RNA has two regions, called a' and b' (see diagram) |
ly(A) tail can also recruit RNases that cut the | RNA in two. |
The RRM seems to recognize specific | RNA sequences, typically located within exons. |
The exact 5' and 3' ends of this | RNA are uncertain. |
ertain but may be caused by clashes between two | RNA polymerase units as they simultaneously transcr |
Secondary structure of RUF21, an | RNA of unknown function from S. cerevisiae |
RUF3 is a novel | RNA of unknown function but has shown to contain so |
RNA of unknown function (RUF) is a generic name, of | |
The function of this | RNA is unknown. |
SRG1 | RNA is unrelated to Senescence Related Gene 1 (SRG1 |
RNA pairs up the same as DNA, except that Thymine i | |
However, it is unknown if the | RNA is used by phages. |
exonuclease activity and serves to degrade the | RNA primers used to initiate DNA synthesis. |
itially, everyone thought the new enzyme was an | RNA polymerase used by E. coli cells to make long c |
SCFGs have also been used to find | RNA genes using comparative genomics. |
bout 200 adenine units to the new 3' end of the | RNA molecule using ATP as a precursor. |
This type of modifying | RNA is usually located in the nucleolus of the euka |
This type of modifiying | RNA is usually located in the nucleolus of the euka |
This type of modifiying | RNA is usually located in the nucleolus of the euka |
ransfer ribonucleate synthetase, valyl-transfer | RNA synthetase, valyl-transfer ribonucleic acid syn |
, a hybridization probe is a fragment of DNA or | RNA of variable length (usually 100-1000 bases long |
a base-paired complex with another spliceosomal | RNA U4atac via two stem loop regions. |
a base-paired complex with another spliceosomal | RNA U6atac via two stem loop regions. |
He investigated how cells form enzymes, DNA and | RNA structures, virology and the molecular basis of |
HL23V is a type C | RNA tumor virus first isolated in 1975 from culture |
flexiviridae are single-stranded positive sense | RNA plant viruses, belonging to the order Tymoviral |
flexiviridae are single-stranded positive sense | RNA plant viruses, belonging to the order Tymoviral |
viruses, rhabdoviruses, hepadnaviruses and some | RNA tumour viruses. |
RNA in vitro evolution or SELEX enables the artific | |
Yfr1 is a Cyanobacterial functional | RNA that was identified by a comparative genome bas |
The | RNA structure was predicted and confirmed by mutage |
being the first gene in which the phenomenon of | RNA interference was observed; researchers intendin |
boratory currently studies structural motifs in | RNA as well as proteins, as part of the RNA Ontolog |
Further analysis has shown that the | RNA is well conserved and highly expressed in cyano |
Other conserved | RNA structures were originally detected using envir |
Two such | RNA classes were identified and called the PhotoRC- |
Instances of the manA | RNA motif were detected in bacteria in the genus Ph |
response in bacteria, causing the inhibition of | RNA synthesis when there is a shortage of amino aci |
are commonly found in viral genomes, especially | RNA viruses, where they can have a wide range of fu |
increase the accessibility of the chromatin to | RNA polymerase, where repressing modifications decr |
strates of this enzyme are ATP and DNA-directed | RNA polymerase, whereas its two products are ADP an |
o whether the indicated motif is transcribed as | RNA, or whether its reverse complement is transcrib |
virus, it has a single-stranded, positive sense | RNA genome which replicates via a DNA intermediate |
e APC internal ribosome entry site (IRES) is an | RNA element which is located in the coding sequence |
gy, SNORA2 (also known as ACA2) is a non-coding | RNA (ncRNA) which modifies other small nuclear RNAs |
snoR9 is a non-coding | RNA (ncRNA) which functions in the biogenesis (modi |
, SNORA76 (also known as ACA62) is a non-coding | RNA (ncRNA) which modifies other small nuclear RNAs |
Patricia Thomas, developer of the | RNA blot which then became known as the northern bl |
d, which Doctor Stein attributes to "an unknown | RNA problem" which he hopes to correct during the c |
V trans-activation response (TAR) element is an | RNA element which is known to be required for the t |
Description: A single-strand specific DNA and | RNA endonuclease which will degrade single-stranded |
RNA-like structures (tRNA-like structures) are | RNA sequences, which have a similar tertiary struct |
Some bacterial viruses code for their own | RNA polymerases, which are highly specific for the |
man Parechovirus 1 cis regulatory element is an | RNA element which is located in the 5'-terminal 112 |
cis-regulatory element is a structured G/C rich | RNA element which is involved in controlling cell c |
ing number of 'orphan' guides without any known | RNA targets, which suggests that there might be mor |
cations are 5' capping, 3' polyadenylation, and | RNA splicing, which occur in the cell nucleus befor |
binding site is a region on a protein, DNA, or | RNA to which specific other molecules and ions-in t |
molecular markers for tumors (including DNA and | RNA markers) which can be used in the laboratory or |
coating), and a 1063-nucleotide single-stranded | RNA genome which codes for the capsid and one other |
is a ncRNA that was identified by screening for | RNA molecules which co-immunoprecipitated with the |
The pre-mRNA is then spliced into messenger | RNA (mRNA) which is later translated into protein. |
HCV) cis-acting replication element (CRE) is an | RNA element which is found in the coding region of |
e right is a diagram of a heterogeneous nuclear | RNA (hnRNA), which is an unedited mRNA transcript, |
ut it to use to form the first three-nucleotide | RNA codons, which coded for the amino acid phenylal |
is a reverse transcriptase that carries its own | RNA molecule, which is used as a template when it e |
SnRNAs function in | RNA splicing while snoRNPs function in ribosomal RN |
It can also help nucleotides to assemble into | RNA which will end up inside the vesicles and, unde |
treatment with a reagent such as a short DNA or | RNA oligonucleotide with a sequence complementary t |
NEAT1 | RNA interacts with a paraspeckle protein known as P |
The FourU thermometer | RNA motif, with the Shine-Dalgarno sequence highlig |
Micro-RNA group: micro-RNA's are small | RNA molecules with important roles in regulation of |
und by the Hfq protein, that increases the OxyS | RNA interaction with its target messages.. |
Negative-strand | RNA viruses with segmented genomes, i.e., Orthomyxo |
n which consists of a negative, single stranded | RNA genome with a lipid envelope and 5 structural p |
resulting from cleavage of long double-stranded | RNA (dsRNA) with an endoribonuclease such as Escher |
ent method for pairwise structural alignment of | RNA sequences with low sequence identity has been p |
coli, DNA repair), eIF4A (Baker's Yeast, | RNA translation), WRN (human, DNA repair), NS3 (Hep |
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