「dna」の共起表現一覧(1語右で並び替え)3ページ目
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The YAP mutation was caused when a strand of | DNA called Alu, which copies itself, inserted a cop |
Sections of | DNA called microsatellites, which consist of a sequ |
to do this is mostly a small piece of circular | DNA called plasmid or vector. |
regulatory proteins bind to short stretches of | DNA called regulatory regions, which are appropriat |
he same research group also constructed widened | DNA, called yDNA. |
It is also a phase in which the | DNA can accumulate damage such as short gaps, which |
s made possible an understanding of how genomic | DNA can be converted to both messenger RNA and tran |
DNA can be analyzed by using a pipette to put the m | |
This fragment of | DNA can move from position to position on the chrom |
DNA can also be extracted from animals and used to | |
destroy aliens, and an alien cloned from Fries' | DNA can be seen. |
As a result, this | DNA can provide phylogenetic information of species |
on is a technique whereby the 5' ends of RNA or | DNA can be mapped. |
The plasmid | DNA can then pass into the cell upon heat shock, wh |
Secondary structures in the | DNA can result in folding or knotting of DNA templa |
from mother to offspring through mitochondrial | DNA can be avoided. |
Minute samples of | DNA can be isolated from a crime scene, and compare |
Furthermore Mitochondrial | DNA can be recovered from both bone and teeth datin |
Extrachromosomal | DNA can also be found in the plasmids of bacteria, |
DNA can be quantified by cutting the DNA with a res | |
The single-strand | DNA can hydrogen bond to itself and form dangerous |
fferent restriction enzymes so that the foreign | DNA can be inserted within the lacZα gene, thus dis |
siDNA is a short modified | DNA capable of inhibiting the DNA repair activities |
ralian desert after an accident occurs; mutated | DNA causes the mindless dead to rise up as zombies. |
d to determine base sequencing, cleavage on the | DNA chain, and other applications. |
content remains unharmed, with less breakage of | DNA chains that control important cellular function |
He led a team studying | DNA chip technology with a hope of combatting a for |
xploited in a variety of ways, most notable via | DNA chips or microarrays with thousands to billions |
ther into the game, he finds more Genome-Cyborg | DNA chips allowing him to change into even more dif |
ich two are Air Force meteorologists, three are | DNA civilian researchers and the rest is Argentine |
Unlike other human Y | DNA clades of a similar age depth, all clades of Ha |
The eukaryotic equivalent to the | DNA clamp loader is Replication Factor C, which is |
The presence of the | DNA clamp can increase the rate of DNA synthesis up |
The | DNA clamp fold is found in bacteria, archaea, eukar |
dnaN is the gene that codes for the | DNA clamp (also known as β sliding clamp) of DNA po |
gene that codes for the τ and γ subunits of the | DNA clamp loader of prokaryotes. |
A | DNA clamp, also known as a sliding clamp, is a prot |
The | DNA cleavage event also requires the divalent metal |
-terminal DNA-binding domain and a non-specific | DNA cleavage domain at the C-terminal. |
Internucleosomal | DNA cleavage pattern was observed as a specific fea |
itional evidence for occurring internucleosomal | DNA cleavage pattern as a specific feature in gluco |
DNA cleavage is mediated through the non-specific c | |
It also triggers | DNA cleavage by topoisomerase II, resulting in mech |
sequence specificity and a nuclease domain for | DNA cleavage. |
Calicheamicins are highly toxic to | DNA, cleaving it readily. |
DNA closed its doors in 2006. | |
While the | DNA code is responsible for the sequence of RNA's a |
genes, and second, with mutations of the actual | DNA code for the gene itself. |
erhaps a simpler approach to building/designing | DNA codewords is by having a binary mapping by look |
When the | DNA coding for myogenin was knocked out of the mous |
en continue with the computational abilities of | DNA coding, onward and upward to goats, without get |
species, or the intricate relationships of the | DNA coding. |
practice of representing the genetic code as a | DNA codon table has become more popular. |
The | DNA codons in such tables occur on the sense DNA st |
About 147 base pairs of | DNA coil around 1 octamer, and ~20 base pairs are s |
t predicted manA RNA sequences are derived from | DNA collected from uncultivated marine bacteria. |
DNA collection for the project initially involved d | |
kits support the Genographic Project's ongoing | DNA collection, but the majority are ploughed into |
g is the process by which two single strands of | DNA combine to form double-stranded DNA. |
The temperatures at which labeled | DNA comes off the column reflects the amount of sim |
ble for the increased mechanical flexibility of | DNA compared to RNA, which allows it to assume the |
exual assault suspect, Bernardo was sampled for | DNA comparison to case evidence by Metro Toronto Po |
More recently, mitchondrial | DNA comparisons between the Amsterdam Albatross, th |
eighteen minutes, later appeared on the Recombo | DNA compilation. |
p managed to solve a 'nontrivial' problem using | DNA computation. |
Enzyme based | DNA computers are usually of the form of a simple T |
y University in 1993, before earning a Ph.D. in | DNA computing in 1997, from the University of Warwi |
DNA computing overlaps with, but is distinct from, | |
Additionally, | DNA computing can be done without using the types o |
He is a leading researcher into | DNA computing and DNA nanotechnology. |
DNA computing is fundamentally similar to parallel | |
structures provided the capability to implement | DNA computing, which was demonstrated by Winfree an |
These structures can be used for | DNA computing, but they do not have to be. |
rsity, and an expert on natural computation and | DNA computing. |
DNA concentration can be determined measuring the i | |
Today research | DNA confirm that be comprises the schedule of genes |
MG-box containing proteins only bind non-B-type | DNA conformations (kinked or unwound) with high aff |
called "What Darwin Never Knew" which discussed | DNA connections to evolution. |
Satellite | DNA consists of very large arrays of tandemly repea |
DNA constantly requires repair due to damage that c | |
April 1953 to see the model of the structure of | DNA, constructed by Francis Crick and James Watson, |
The P1-derived artificial chromosome are | DNA constructs that are derived from the DNA of P1 |
It is a | DNA contained in organelles, outside the nucleus of |
reat power awoke within him due to his dinosaur | DNA contained within the bone It is implied that th |
A corynebacteriophage is a | DNA containing bacteriophage specific for corynebac |
sage, the term transgene describes a segment of | DNA containing a gene sequence that has been isolat |
Thus, the two substrates of this enzyme are | DNA containing 6-O-methylguanine and protein L-cyst |
Because only eukaryotic | DNA contains with intronic regions, this type of ge |
of RNA samples can be used to check for genomic | DNA contamination and also for RNA degradation. |
ns at 260nm vs 280nm is commonly used to assess | DNA contamination of protein solutions, since prote |
is of copy number changes (gains/losses) in the | DNA content of a given subject's DNA and often in t |
ed with nocodazole arrest with a G2- or M-phase | DNA content when analysed by flow cytometry. |
The G+C total | DNA content was measured as 64.8 mol %, as perhaps |
It is also used in fluorescent cell sorting for | DNA content, as it blocks efflux of a variety of DN |
he nucleus, attracted by its negatively charged | DNA content. |
most commonly used dye to quantitatively assess | DNA content. |
Alchemy: The Social History of the Recombinant | DNA Controversy (MIT Press, 1982) |
(RT-PCR), which allows the creation of several | DNA copies of a target sequence using RNA as a temp |
Positive log-ratios indicate a region of | DNA copy number gain and negative log-ratio values |
ly the first microarray platform to be used for | DNA copy number analysis. |
the point mutant and del-2 in which a length of | DNA could be made that contained neither the point |
Iminium-mediated | DNA cross-linking and DNA-protein interstrand cross |
The decrease in | DNA cross-linking seen when alguronic acid is appli |
DNA crosslinkers | |
It works by binding to | DNA, crosslinking two strands and preventing cell d |
iannoni, produced the first chain-folded single | DNA crystals in 1969. |
irs with complementary sticky ends on any other | DNA cut with the same enzyme (such as a bacterial p |
DNA cyclase, which recloses imidazole rings of guan | |
Like other | DNA cytosine-5 methyltransferases the human enzyme |
pen, for example, while responding to extensive | DNA damage through the SOS response system. |
The | DNA damage contention is difficult to corroborate o |
nal tubal cells and causes oxidative damage and | DNA damage leading to cell death and dysfunctional |
This complex recognizes | DNA damage and rapidly relocates to DSB sites and f |
(ATM), ultimately leading to activation of the | DNA damage checkpoint. |
BRCA1 combines with other tumor suppressors, | DNA damage sensors, and signal transducers to form |
Importantly, indirect | DNA damage does not result in any warning signal or |
as measured by free M1G is a tool for detecting | DNA damage that may lead to cancer. |
which doesn't mention the | DNA damage that seems to be unrelated to the photoi |
The traveling nature of the indirect | DNA damage can be seen in the fact that the maligna |
photoprotective mechanism is to prevent direct | DNA damage and indirect DNA damage. |
DNA damage recognition and repair - a certain DNA r | |
teria responding to various stresses, including | DNA damage or inhibition of replication. |
cer, especially when checkpoints fail to detect | DNA damage or when incorrectly attached mitotic spi |
Free radicals are known to induce indirect | DNA damage and an increased concentration of free r |
PCNA is also involved in the | DNA damage tolerance pathway known as post-replicat |
s a radiosensitizer and increases the amount of | DNA damage received from ionizing radiation. |
ns and activities are associated with oxidative | DNA damage and subsequently the individual's risk o |
domain essential for activation in response to | DNA damage and is rapidly phosphorylated in respons |
lasmid rolling-circle replication and repair of | DNA damage caused by exposure to ultraviolet radiat |
a database of resources for systems biology of | DNA damage and repair. |
he K63 linkage which is known to be involved in | DNA damage recognition of DNA double strand breaks. |
controlling recombination events, and repairing | DNA damage in the G2-phase of the cell cycle. |
bitor of ATM/ATR kinases, which are involved in | DNA damage repair. |
Its team works on cancer immunotherapy and | DNA damage in neurons. |
for allowing accurate translesion synthesis of | DNA damage resulting from ultraviolet radiation or |
tent heat shock response inducer that may cause | DNA damage and PARP-dependent energy crisis in cult |
ontinues to be debate as to whether or not this | DNA damage is to be considered one of the mechanism |
To understand the | DNA damage theory of aging it is important to disti |
In response to | DNA damage and replication blocks, cell cycle progr |
his gene the bacteria were still able to repair | DNA damage but would not grow. |
s required for division and proliferation after | DNA damage has been repaired. |
The SOS response is a global response to | DNA damage in which the cell cycle is arrested and |
homolog of the mammalian Mre11-Rad50-Nbs1 (MRN) | DNA damage repair complex. |
rbs ultraviolet rays, thereby preventing direct | DNA damage by UV-B. |
The | DNA damage leads to apoptosis of the affected cells |
tide excision repair (NER), whose aim is to fix | DNA damage without commitment to a full-fledged SOS |
in the nucleotide excision repair of UV-induced | DNA damage that is indistinguishable from that of x |
radiation and Mitomycin C are used because the | DNA damage they produce stimulates the SOS response |
n cell cycle checkpoint functions responsive to | DNA damage, for example as found in the breast canc |
phodiester bond 4 nucleotides downstream of the | DNA damage, and the UvrC cleaves a phosphodiester b |
If a cell retains | DNA damage, transcription of a gene can be prevente |
The first person to suggest that | DNA damage, as distinct from mutation, is the prima |
had become increasingly evident that oxidative | DNA damage, in particular, is a major cause of agin |
slauer has mapped the energetic consequences of | DNA damage, knowledge critical to understanding the |
Unlike direct | DNA damage, which occurs in areas directly exposed |
There are many illnesses now tied to | DNA damage, including Parkinson's and other neurode |
Following | DNA damage, the SOS response represses transcriptio |
DNA damage-inducible transcript 3, | |
DNA damage-inducible transcript 3 is a protein that | |
DNA damage-inducible transcript 3 has been shown to | |
for cleaving the nucleotides either side of the | DNA damage. |
focal microscopy and used to visualize sites of | DNA damage. |
mful UVA/B radiation, protecting organisms from | DNA damage. |
to repress the transcription in the absence of | DNA damage. |
280 to 320 nm, protecting the skin from direct | DNA damage. |
inated water because of its potency in inducing | DNA damage. |
may also label cells that have suffered severe | DNA damage. |
r only in their recognition of helix-distorting | DNA damage. |
BRCA1, allowing BRCA1 to restore survival after | DNA damage. |
y mutagenic, possibly by induction of oxidative | DNA damage. |
the SOS response, which responds to significant | DNA damage. |
d for transcription-coupled repair of oxidative | DNA damage. |
lso generates free radicals that cause cell and | DNA damage. |
Indirect | DNA damage: The chromophore absorbs UV-light ( * de |
DNA damages and mutation are fundamentally differen | |
DNA damages can be recognized by enzymes, and thus | |
istic of aging, associated with accumulation of | DNA damages, are given later in this article. |
This | DNA damaging effect except curative preperities may |
tigated because of their involvement in certain | DNA damaging processes. |
genic - proapoptotic effect and a carcinogenic, | DNA damaging, mutagenic potential. |
California's | DNA data retrieval and storage program is considere |
Susono's | DNA data from the NetSphere Archive is the only pro |
hts judgment, retention of both fingerprint and | DNA data constituted an interference by the State w |
It hosts the | DNA Data Bank of Japan. |
Scully receives | DNA data on Melissa, and matching it up to Emily's |
, based on both morphological and mitochondrial | DNA data, has however concluded that the East Siber |
lso: Thomas Jefferson, Sally Hemings, Jefferson | DNA data, and Annette Gordon-Reed |
ome (RNA) data and the second using metagenome ( | DNA) data. |
eated the world's first international automated | DNA database and another automated database aimed a |
Ironically, while the California | DNA database motivated by this case has solved nume |
ecently been appointed a member of the National | DNA Database Ethics Group set up by the Home Office |
Breslauer determined a | DNA database that allows one to energetically map g |
g as Shadow Home Secretary; and stated that the | DNA Database should be extended to help detection o |
ed Kingdom (2009) - the United Kingdom National | DNA Database - data retention period curtailed. |
SGM Plus has been used by the UK National | DNA Database since 1998. |
voted for Public Safety - Statewide | DNA Database System - Crimes of Violence and Burgla |
a suspect who may have since been added to the | DNA database, had been lost by the Kent police Exhi |
Schneider worked to establish a state-wide | DNA database. |
BBC1 show Big Questions, debating the UK Police | DNA database. |
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