「dna」の共起表現一覧(1語右で並び替え)2ページ目
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have both common and unique features of genomic | DNA and virion structure. |
The enzyme is not active on single-stranded | DNA, and thus 3´-protruding termini are resistant t |
lly for the separation of nucleic acids such as | DNA and RNA. |
Inhibits | DNA and RNA synthesis by intercalating between base |
recently challenged by a broad study of nuclear | DNA and gene trees in mouse lemurs. |
r, as aflatoxin metabolite can intercalate into | DNA and alkylate the bases through its epoxide moie |
uclei after chemical or enzymatic extraction of | DNA and RNA from the tissue (Lillie et al., 1976). |
ls when interacting with positively supercoiled | DNA and introduces (additional) negative supercoils |
ogy applications for the preparation of plasmid | DNA and recombinant proteins. |
rodrug of ribavirin, active against a number of | DNA and RNA viruses. |
e island in a side-scrolling format, collecting | DNA and avoiding dinosaurs. |
He investigated how cells form enzymes, | DNA and RNA structures, virology and the molecular |
tations initiate with changes that occur in the | DNA and can get passed down to other generations. |
en referring to nucleic acid molecules, such as | DNA and RNA, collectively referred to as nucleic ac |
n-mediated free oxygen radicals that damage the | DNA and cell membranes. |
The Cosmic Serpent: | DNA and the Origins of Knowledge is a 1995 non-fict |
DNA and RNA have a deoxyribose and ribose sugar bac | |
The UL-15/UL-28 is believed to bind with viral | DNA and serve the same purpose as terminase by pack |
tion of secondary structures of single stranded | DNA and RNA G-rich called G-quadruplexes (G4-DNA an |
FASTA is a | DNA and protein sequence alignment software package |
mons for having refined techniques of isolating | DNA, and thereby helping a great many workers inclu |
his was an important milestone in understanding | DNA and RNA. |
he conducted comparative analysis of bacterial | DNA and RNA, and predicted existence of messenger R |
egrate is the intermediate molecule which donor | DNA and target DNA covalently bind during the forma |
dae have a genome consisting of single-stranded | DNA and an icosahedral capsid. |
alkyl phosphates, as are nucleic acids such as | DNA and RNA. |
cause a heavy distortion in the double helix of | DNA and thus are hard to detect by the DNA mismatch |
determine the nucleotide sequence of biological | DNA and RNA molecules, and today hundreds of millio |
roup provides nonspecific labeling of proteins, | DNA and RNA probes or other molecules. |
rs, one to hybridize to each strand of a target | DNA, and adding DNA polymerase to the reaction. |
oxanide 500 mg twice daily had undetectable HBV | DNA and 2 had loss of HBsAg.Additionally, nitazoxan |
des, which are the molecular building-blocks of | DNA and RNA. |
receptors have the ability to directly bind to | DNA and regulate the expression of adjacent genes, |
compounds including collagen, fibrin, heparin, | DNA, and actin. |
ion results in complex formation which inhibits | DNA and RNA synthesis. |
in vitro, requiring only resolvase, a substrate | DNA and multivalent cations, using either wild type |
S-box region that allows the protein to bind to | DNA and to function as a regulator in DNA transcrip |
lymerase activity, it binds to and precipitates | DNA and is utilized in purifying DNA-binding protei |
of tissues, tissues of cells, and cells contain | DNA, and every cell contains the DNA of the whole b |
BodyZone - In BodyZone you learn about | DNA and how it makes you unique, and now our body w |
denly encased in a strange cube that copies his | DNA, and the entire area collapses around them. |
ocates into the cell nucleus, where it binds to | DNA and promotes transcription of genes responsive |
oxidatively damaged proteins, lipids, RNA, and | DNA, and his laboratory has made major contribution |
tophan repressor (TrpR) is only able to bind to | DNA and repress transcription of the Trp operon whe |
for a protein which binds a certain sequence of | DNA, and, by inserting a chemically active amino ac |
ed by The Times Group after Hindustan Times and | DNA announced plans to enter the Mumbai market. |
nce transport of large molecules (naked plasmid | DNA, antisense oligonucleotides, siRNA) into cells |
The backbone of RNA and | DNA are structurally similar, but RNA is single str |
As an example, if the genes in the phage | DNA are arranged ABC, then in a concatemer the gene |
Many or even most mutations to noncoding | DNA are neutral. |
concatamers, in which over lapping segments of | DNA are made, and then put together to form the who |
Possible stop codons in | DNA are "TGA", "TAA" and "TAG". |
ides in inverted repeats within single-stranded | DNA, are common secondary structures and may result |
As | DNA are printed on a glass slide for transfection p |
ed regions of genes whose encoded proteins bind | DNA are interact with other proteins that bind DNA. |
igh proportion of cytosine and thymine bases in | DNA are oxidized to hydantoins over time after the |
elix in biology as well as the A and B forms of | DNA are also right-handed helices. |
Depurinated bases in double-stranded | DNA are efficiently repaired by portions of the bas |
And it changed in year 2007 to | DNA Areena. |
and tags, homologous recombination methods, and | DNA array synthesizers. |
is intended to facilitate manufacture of custom | DNA arrays, where users want the ability to do some |
bers contain a cut-homeodomain (ONECUT) bind to | DNA as monomers. |
Whereas DnaB-like helicases unwind | DNA as donut-shaped hexamers, other enzymes have be |
save their lives, they were spliced with animal | DNA, as well as receiving bio-wetware chips in the |
In the 1940s, the identification of | DNA as the genetic material by Oswald Avery and col |
ing survival as more important and seeing human | DNA as holding useful attributes, as the humans thr |
g cells and has an evolutionary history tied to | DNA as a genetic material, defense against oxidativ |
is 7- to 100-fold more active on hemimethylated | DNA as compared with unmethylated substrate in vitr |
It does this by binding | DNA at the transcription initiation complex and pre |
ucleotides in length, they recognize and cleave | DNA at the same site, and they do not use ATP or Ad |
This degrades genomic | DNA at internucleosomal linker regions and produces |
ons, which wrap around the proteins causing the | DNA at the AT-rich region to unwind. |
tivated, these retinoid receptor dimers bind to | DNA at retinoic acid response elements and act as t |
Homing endonuclease genes cleave | DNA at its own site on the homologous chromosome, t |
The enzyme cleaves the | DNA at the positions where the GGCC sequence is fou |
A telomere is a region of highly repetitive | DNA at the end of a linear chromosome. |
3 inhibits ICAD, thereby freeing CAD to cleave | DNA at random sections of linker DNA, the only DNA |
It intercalates into | DNA at two specific sites, thereby blocking the bin |
DNA attacks the epoxide, and is bound permanently t | |
OWA Choctaw Indians, agreed to participate in a | DNA autosomal test that would map his genes, as par |
clinical specimens severely limit the amount of | DNA available for analysis. |
they are his creations, made from fragments of | DNA available, and corrected and changed according |
eded in and of itself to create the nick in the | DNA backbone so that the enzymes involved later in |
tive site of the enzyme with the phosphodiester | DNA backbone simply replaces one phosphomonoester b |
alcium ions attract both the negatively charged | DNA backbone and the negatively charged groups in t |
ytic cleavage of phosphodiester linkages in the | DNA backbone. |
the negatively charged phosphate groups on the | DNA backbone. |
high-affinity binding between the histones and | DNA backbone. |
dens, Schmidt bet Anweiler ten dollars that the | DNA barcodes of C. moneta and C. deridens would be |
rsity of Guelph, Ontario proposed a database of | DNA barcodes identifying all species. |
a punctella in North America, but had identical | DNA barcodes. |
This butterfly has been subject of a pioneering | DNA barcoding study of a 648 bp sequence from COI, |
Software for | DNA barcoding requires integration of a field infor |
national collaborative effort which aims to use | DNA barcoding to generate a unique genetic barcode |
should be combined or separated, the utility of | DNA barcoding for these purposes is subject to deba |
DNA barcoding is a taxonomic method that uses a sho | |
Hebert is best known as the "father of | DNA barcoding". |
Combining | DNA barcoding, morphology and food plant records al |
ecimens to type material through morphology and | DNA barcoding, they determined that the species dis |
s established by taxonomy and those inferred by | DNA barcoding, Hebert and co-workers sequenced DNA |
ed morphological and molecular sampling through | DNA Barcoding. |
It binds to the N7 nitrogen on the | DNA base guanine. |
sequence of protein subunits (and hence genomic | DNA base pairs) that promotes the attachment of ATP |
Some mutations alter a gene's | DNA base sequence but do not change the function of |
omplementarity of the two compounds, similar to | DNA base pairing. |
the two compounds, reminiscent to that seen in | DNA base pairing. |
Examples of biological data are | DNA base-pair sequences, and population data used i |
ith cloned ZP cDNA, therefore this vaccine is a | DNA based vaccine. |
DNA based evidence is perhaps one of the strongest | |
Another | DNA based study has suggested that the branching or |
wed the production of virtually any recombinant | DNA based biological substance for eventual develop |
DNA Based Computers V: Dimacs Workshop DNA Based Co | |
Offerings include RNA, MicroRNA and | DNA based molecular diagnostic products providing i |
8 also saw the launch of P.O.T.U.S. 1600, a non | DNA based commemorative cologne in honor of then De |
tonka, Minnesota where he worked on recombinant | DNA based viral vaccines. |
Ada transfers the alkyl group from | DNA bases and sugar-phosphate backbone to a cystein |
Ada removes the alkyl group attached to | DNA bases like guanine (O6-alkyl guanine) or thymin |
It involves separating | DNA bases from different DNA fragments. |
tra-strand and inter-strand cross-links between | DNA bases. |
on bills of visiting groups including The Fall, | DNA, Bauhaus (band) and Mission of Burma. |
s and restriction enzymes to create recombinant | DNA, became a foundation of biotechnology. |
This leads to the silica surface and | DNA becoming dehydrated. |
often contain nucleases that degrade the target | DNA before it can be purified. |
gh then discusses the scientific feasibility of | DNA being preserved in Amber, and the science behin |
e enzyme induces a conformational change in the | DNA, bending it by about 50°. |
DNA bending results in the unstacking of the bases, | |
This enzyme resembles | DNA beta-glucosyltransferase in that respect. |
e that catalyzes site-specific recombination of | DNA between loxP sites. |
The linker histone, H1, interacts with linker | DNA between nucleosomes and functions in the compac |
For explanation of how the silicon and | DNA bind see separation by silica adsorption |
cally consist of separable regions that mediate | DNA binding and interaction with transcriptional ac |
hich different molecules of protein or specific | DNA binding sequences (as capture probes for the pr |
These domains include a | DNA binding domain, a dimerization domain which det |
r Origin Recognition Complex is a multi-subunit | DNA binding complex (6 subunits) that binds in all |
c-Fos has a leucine-zipper | DNA binding domain, and a transactivation domain at |
ropeller domain, the immunoglobulin fold and B3 | DNA binding domain. |
the ARID (AT-rich interaction domain) family of | DNA binding proteins. |
The protein encoded by this gene is a | DNA binding and apoptosis-inducing protein and is l |
on factors, which contain zinc fingers in their | DNA binding domain, have emerged as candidate regul |
ecting the high degree of homology within their | DNA binding domains, androgen receptors, glucocorti |
The increased | DNA binding condenses DNA structure, preventing tra |
factor and contains the common helix-turn-helix | DNA binding domain. |
ID3 (gene) inhibits | DNA binding |
otein encoded by this gene contains a fork head | DNA binding domain. |
half of the protein: a basic region involved in | DNA binding and a leucine zipper motif involved in |
are due to its ability to directly inhibit the | DNA binding of certain carcinogens, including nitro |
mbers are identified through a highly conserved | DNA binding domain, the ETS domain, which is a wing |
As it is a | DNA binding compound it is likely to have some low |
p-helix (bHLH) transcription factors to inhibit | DNA binding of bHLH proteins. |
Its major use is to find the | DNA binding site for proteins. |
These proteins contain a conserved basic | DNA binding domain that binds the E box DNA motif . |
a helix-turn-helix motif and is similar to the | DNA binding domains of the bacterial site-specific |
The gene product contains an N-terminal | DNA binding domain and C-terminal ligand binding do |
rmone, and vitamin D receptors, increasing both | DNA binding and transcriptional function on their r |
They are structurally derived from the | DNA binding protein Sac7d, found in Sulfolobus acid |
There is limited similarity outside the ETS | DNA binding domain. |
The human glucocorticoid receptor | DNA binding factor, which associates with the promo |
several domains important for hormone binding, | DNA binding, and activation of transcription. |
hobic leucine region is absolutely required for | DNA binding. |
h other BHLH proteins is required for efficient | DNA binding. |
p box) is a protein domain which is involved in | DNA binding. |
ribed in RNA binding proteins, and required for | DNA binding. |
2. | DNA binds to the channel, and all other molecules r |
3D Sarfus image of a | DNA biochip. |
His impressive research on both | DNA biophysics and conotoxins has enabled Dr. Olive |
e pairs long, and the total size of a satellite | DNA block can be several megabases without interrup |
In some cases, a | DNA blood test may be all that is needed. |
The protein can bind | DNA both as a monomer or, with more affinity, as a |
The crystal structure of | DNA bound by the zinc finger domain of Zif268 was s |
in the Hin tetramer make a 2-bp double stranded | DNA break and forms a covalent reaction intermediat |
oxygen scavengers have no significant effect on | DNA breakage. |
he topoisomerase-DNA complex and thus introduce | DNA breaks in the wires that lead to apoptosis, the |
f ionizing radiation, however, delivers so many | DNA breaks that it overwhelms the capability of the |
lated to the relative number of double-stranded | DNA breaks produced in cells, which are a reflectio |
hich inhibits the religation of single-stranded | DNA breaks generated by topoisomerase I; lethal dou |
these mutations involve changes in one or a few | DNA building blocks (nucleotides) in the gene. |
e stain preferentially binds to double-stranded | DNA, but will stain single-stranded DNA with lower |
s are special since they do not target the cell | DNA but insert into the plasma membrane and cause a |
Thymidine occurs almost exclusively in | DNA but also occurs in the T-loop of tRNA. |
The protein can homodimerize and bind | DNA, but in vivo targets have not been identified. |
new genes have not been inserted in the nuclear | DNA but in the DNA of the chloroplasts. |
This molecule does not cause damage to | DNA, but protects cells from damage, natural, or in |
turally the technology will be used to sequence | DNA, but because of the high parallel nature of the |
n of proteins that have affinity to zinc finger | DNA by Sepp et al. |
of this base being mistakenly incorporated into | DNA by DNA polymerases, which is a cause of mutatio |
It hypomethylates | DNA by inhibiting DNA methyltransferase. |
Upon the excision of a particular region of | DNA by the Cre-loxP system, normal gene expression |
's plan to reverse the aging in his clone sons' | DNA by Dr. Ovolot Qail Uthan is compromised when Ut |
erase I is an enzyme that relaxes the strain on | DNA by nicking and ligating the DNA. |
These reactive chemical species can reach | DNA by diffusion and the bimolecular reaction damag |
The cleavage of | DNA by esperamicin is greatly accelerated in the pr |
PCR) which avoids non-specific amplification of | DNA by inactivating the taq polymerase at lower tem |
It forms adducts with | DNA by reacting with guanine at its C-8 position. |
Top 3 changes the topological status of | DNA by binding and cleaving single stranded DNA and |
either directly and indirectly interacting with | DNA by binding to recognition sequences located in |
ess inhibits gyrase from effectively binding to | DNA by deforming the shape of the enzyme's active s |
This is a type of mutation which occurs with | DNA by recombination. |
h have been depleted of their own mitochondrial | DNA by prolonged incubation with ethidium bromide, |
effect the base-specific cleavage of guanine in | DNA by rupturing the imidazole rings present in gua |
le-stranded breaks that are introduced into the | DNA by the Spo11 protein. |
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