「bacterial」の共起表現一覧(1語右で並び替え)3ページ目
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itochondria possess ribosomes similar to the | bacterial ones, mitochondria are not affected by these |
have a much greater protein content than the | bacterial ones, the RNA cores from all three lineages |
s usually a cytotoxic protein derived from a | bacterial or plant protein, from which the natural bin |
nsmission of communicable disease, including | bacterial or fungal contamination during processing. |
carbohydrates with a nitrogen source, using | bacterial or yeast species from genera such as Breviba |
in order to control their exposure to viral, | bacterial or parasitic agents. |
n method for estimating the concentration of | bacterial or other cells in a liquid. |
that are produced and secreted from several | bacterial organisms. |
ole host of infectious diseases of viral and | bacterial origin. |
to a proinflammatory stimulus, especially of | bacterial origin. |
In Chicago, Fenger helped demonstrate the | bacterial origins of endocarditis and developed techni |
Cosmids are predominantly plasmids with a | bacterial oriV, an antibiotic selection marker and a c |
The | bacterial outer membrane is found in Gram-negative bac |
r crosses the outer cell lipid membranes and | bacterial outer membrane; then, it begins to liberate |
Alters | bacterial outer membrane permeability by binding to a |
ubstrate specificity (EC:3.1.1.32.) from the | bacterial outer membrane. |
The | bacterial outer membrane enzyme PagP transfers a palmi |
duced by the co-presence of small intestinal | bacterial overgrowth. |
ce similarity, MSP and the N-terminus of the | bacterial P-pilus associated chaperonin PapD share a h |
y Mountain Laboratories' Laboratory of Human | Bacterial Pathogenesis as Scientist Emeritus. |
Salyers, Abigail & Whitt, Dixie; | Bacterial Pathogenesis: A Molecular Approach, AMS Pres |
lecules (CEACAMs), which are used by several | bacterial pathogens to bind and invade host cells. |
ious diseases caused by common Gram-positive | bacterial pathogens such as Group A Streptococcus, Gro |
The main | bacterial pathogens under study are Campylobacter, Clo |
House flies can be monitored for | bacterial pathogens using filter paper spot cards and |
Bacterial pathogens can assemble translocons in their | |
r metabolism is particularly well-studied in | bacterial pathogens, such as E. coli and Mycobacterium |
In studying foodborne | bacterial pathogens, IFR aim to discover new aspects o |
demiology and vaccine development of various | bacterial pathogens, particularly Neisseria meningitid |
h can potentially harbor known opportunistic | bacterial pathogens. |
Muir was a lecturer in | bacterial pathology at Edinburgh University (1894-98), |
t phagocytosis such as acute phase proteins, | bacterial peptides, HIV envelope proteins and neurotox |
ial molecule involved in construction of the | bacterial peptidoglycan cell wall. |
component of some archaea that differs from | bacterial peptidoglycan in chemical structure, but res |
Increased risk of spontaneous | bacterial peritonitis. |
ordinary resistance to insect, nematode, and | bacterial pests is attributed to high levels of isothi |
erminal regulatory domain is not observed in | bacterial PheOHs but shows considerable structural hom |
prokaryotic phospholipases C is a family of | bacterial phospholipases C, some of which are also kno |
ctose and mannose, synthesis of nucleotides, | bacterial photosynthesis and a class of protein chaper |
d their identification extends the number of | bacterial phyla that can carry out chlorophyll-based p |
ct to the possibility of ever reconstructing | bacterial phylogeny. |
of the RNA were detected, and all are in the | bacterial phylum Dictyoglomi, whose members have not b |
aggregans is classified as belonging to the | bacterial phylum Chloroflexi. |
Fibrobacteres is a small | bacterial phylum which includes many of the major rume |
is stimulate antibody production against the | bacterial pilli to prevent their attachment and invasi |
It is also present in the | bacterial plant pathogen Xanthomonas campestris pv. |
called ATP synthase), is an ATPase found in | bacterial plasma membranes, in mitochondrial inner mem |
production of a ´parental plasmid´ ( | bacterial plasmid with eukaryotic inserts) in 'E. |
pBLU is a commercially-produced | bacterial plasmid that contains genes for ampicillin r |
ther DNA cut with the same enzyme (such as a | bacterial plasmid). |
Plasmid RNAIII is a non-coding RNA found in | bacterial plasmids including pIP501. |
mpound was used to treat Winston Churchill's | bacterial pneumonia in 1942 - his condition was extrem |
oval for the treatment of community acquired | bacterial pneumonia and complicated skin and skin stru |
linical trial for serious community-acquired | bacterial pneumonia (CABP). |
Fuller was rushed to hospital suffering with | bacterial pneumonia, but was back playing for Gillingh |
These | bacterial poly(A) tails are about 30 nucleotides long. |
of the birch pollen allergen Bet v 1 and to | bacterial polyketide cyclases/aromatases. |
Kinamycin is a group of | bacterial polyketide secondary metabolites containing |
Greek τειχος, teichos, "wall") are | bacterial polysaccharides of glycerol phosphate or rib |
This article is about the | bacterial porin. |
General | bacterial porins are a family of proteins from the out |
DnaG is a | bacterial primase which synthesizes short RNA oligonuc |
f antibiotics by searching for inhibitors of | bacterial primase. |
clean, lasting forever, and being devoid of | bacterial problems. |
di-GMP, a second messenger used in multiple | bacterial processes such as virulence, motility and bi |
Dam plays several key roles in | bacterial processes, including mismatch repair, the ti |
The | bacterial production of sulfide starts in the sediment |
ed in bacteria and immunity, and studied the | bacterial products of tuberculosis, hog cholera and gl |
SpoT is a | bacterial protein that hydrolizes alarmones, (p)ppGpp, |
Motility protein A, also known as MotA, is a | bacterial protein that is encoded by the motA gene. |
For the | bacterial protein LexA, see Repressor LexA. |
The medication selectively inhibits | bacterial protein synthesis by interacting at a site o |
Fusidic acid acts as a | bacterial protein synthesis inhibitor by preventing th |
is is only useful with reingestion since the | bacterial protein must be digested in the stomach and |
CobB is a | bacterial protein that belongs to the sirtuin family, |
The | bacterial protein-folding factor DsbA is the most oxid |
be activated by very strong stimuli (such as | bacterial proteins) and not by normal tissue proteins. |
Tir, along with over 25 other | bacterial proteins, is secreted from attaching and eff |
found more sporadically in yeast, plant and | bacterial proteins. |
e a class of signaling molecules involved in | bacterial quorum sensing. |
flow of electrons is similar to that of the | bacterial reaction centre. |
hlorophyll molecules similar to those in the | bacterial reaction centre. |
"Continuous control in | bacterial regulatory circuits" Journal of Bacteriology |
Crescentin is a protein which is a | bacterial relative of the intermediate filaments found |
rocks are formed from marine planktonic and | bacterial remains preserved under anoxic conditions in |
Fusidic acid inhibits | bacterial replication and does not kill the bacteria, |
The homology of tubulin to the | bacterial replication/cytoskeletal protein FtsZ is a m |
DnaG associates with | bacterial replicative helicase DnaB to perform its pri |
TB, albeit with minor toxicity and acquired | bacterial resistance to the drug. |
vation and have yet to encounter significant | bacterial resistance. |
tricted in use, in order to avoid widespread | bacterial resistance. |
t bubble coagulation leads to an increase in | bacterial respiration since more food is available to |
In fact, a storm at sea could increase | bacterial respiration by up to 36 fold for two to four |
As the | bacterial respiratory systems are branched, they have |
logy, riboregulators can be used to regulate | bacterial responses and probe gene regulatory networks |
Reverse transcriptases are also found in | bacterial Retron msr RNAs, distinct sequences which co |
and sequence conservation annotation for 90 | bacterial Rho-independent termination elements. |
Bacterial rhodopsins are a family of bacterial opsins. | |
to their ability to bind at two sites at the | bacterial ribosome as well as having a structural modi |
has a third region of interactions with the | bacterial ribosome, as compared with two binding sites |
is through binding to the 50S subunit of the | bacterial ribosome. |
It is now clear that Hfq is an abundant | bacterial RNA binding protein which has many important |
work in this area detected homologs of known | bacterial RNAs in such metagenome samples. |
Only two | bacterial RNAs are known (6S RNA and transfer RNA) to |
Bacterial RNase P has two components: an RNA chain, ca | |
The RNA from | bacterial RNase Ps retains its catalytic activity in t |
hi-value analysis to the study of barnase, a | bacterial RNAse used in many protein folding studies. |
Activation of | bacterial RuBisCO might be particularly sensitive to P |
n the paper, that the "raw data" were living | bacterial samples, which he would willingly share with |
localization, protein quaternary structure, | bacterial secreted proteins, conotoxin superfamily and |
the presence of an extra protein domain (in | bacterial SelB) or an extra subunit (SBP2 for eukaryot |
Known side effects include | bacterial sepsis, viral meningitis, invasive fungal di |
xamine B, DFO-B, DFOA, DFB or desferal) is a | bacterial siderophore produced by the actinobacteria S |
iption factors, TFIIF is the most similar to | bacterial sigma factor. |
acute | bacterial sinusitis |
is similar to the DNA binding domains of the | bacterial site-specific recombinases, and of eukaryoti |
It is also used to treat | bacterial skin infections. |
istration in April 2007 for the treatment of | bacterial skin infections such as impetigo. |
family of sortases (C60B in MEROPS) contains | bacterial sortase B proteins that are approximately 20 |
rane protein directs phagocytosis of several | bacterial species that is dependent on the small GTPas |
The | bacterial species Clostridium chauvoei is named after |
Herminiimonas aquatilis is a | bacterial species isolated from drinking water. |
IF3 is not universally found in all | bacterial species but in E. coli it is required for th |
The | bacterial species Granulosicoccus coccoides was first |
ely, all of which are obtained from the soil | bacterial species Bacillus brevis and called collectiv |
at is recognised by the plant varies between | bacterial species and is the basis for host-symbiont s |
xpression of several efflux pumps in a given | bacterial species may lead to a broad spectrum of resi |
ogy to the PomA and PomB proteins present in | bacterial species utilizing Na+ ion fluxes to power fl |
Alcaligenes eutrophus is a | bacterial species that naturally produces polyhydroxya |
-level predator; its presence determines the | bacterial species diversity within the pitcher. |
The different | bacterial species that are capable of acetogenesis are |
µm long with a bacillus shape, an acid-fast | bacterial species in the phylum Actinobacteria. |
y laboratory to aid in the identification of | bacterial species (especially Enterococci and Listeria |
ungal parasite Escovopsis and Pseudonocardia | bacterial species residing on the ants' integuments th |
New fungal and | bacterial species have been found to have adapted to t |
A. aeolicus" is also known as one of the few | bacterial species capable of doing gene silencing. |
CGTase is an enzyme common to many | bacterial species, in particular of the Bacillus genus |
that was the first animal model to overcome | bacterial species-specificity. |
species but has not been identified in other | bacterial species. |
sm and its sequence conservation across many | bacterial species. |
The amount of PBPs varies among | bacterial species. |
in mitochondria and is widely distributed in | bacterial species. |
d systems have been identified in many other | bacterial species. |
When subjected to moderate pressures, | bacterial spores germinate, and the resulting spores a |
esearchers renewed their efforts in studying | bacterial spores after it was discovered that using mo |
erate pressure does not always work, as some | bacterial spores are more resistant to germination und |
including all forms of vegetative bacteria, | bacterial spores, fungi, fungal spores, and viruses". |
ctive against Mycobacterium tuberculosis and | bacterial spores. |
of the reasons for the resilience of certain | bacterial spores. |
t from the bacteria E. coli which, like most | bacterial SSBs exists as a tetramer. |
ost often an unripened cheese made by adding | bacterial starter and rennet to acidify milk. |
Bacterial starters are introduced to the milk, includi | |
In this case the sole purpose of the | bacterial step is the regeneration of Fe3+. |
An alternative | bacterial stilbenoid ketosynthase-directed pathway exi |
strain ADP seems to be the optimal | bacterial strain for atrazine degradations, which appe |
e restriction site while isolating it from a | bacterial strain. |
Developed during the nineties when several | bacterial strains were becoming resistant against such |
Robert Koch and learned methods of isolating | bacterial strains to investigate infectious diseases. |
STs) are secretory peptides produced by some | bacterial strains, such as enterotoxigenic Escherichia |
aterials for life sciences research, such as | bacterial strains, plant lines, cell cultures, or DNA. |
If the | bacterial suspension is too turbid, it can be diluted |
ed as a reference to adjust the turbidity of | bacterial suspensions so that the number of bacteria w |
group of antibiotics, work by inhibiting the | bacterial synthesis of dihydrofolic acid. |
committee on reconciliation of approaches to | bacterial systematics has recommended use of GC ratios |
studies with another DNA-binding domain from | bacterial TAL effectors show promise, it remains to be |
worked on several committees connected with | bacterial taxonomy, most notably the International Com |
r a various types of cells and tissues, from | bacterial to mammalian. |
The agent is tested for both mammalian and | bacterial toxicity. |
rax lethal toxin(LT), suggesting the role of | bacterial toxins in inducing inflammasome formation. |
ical purposes by more practical fragments of | bacterial toxins, such as diphtheria toxin, which is u |
is also responsible for the actions of some | bacterial toxins, such as cholera toxin, diphtheria to |
DMS is also produced naturally by | bacterial transformation of dimethyl sulfoxide (DMSO) |
ry the Copley Medal, in part for his work on | bacterial transformation. |
rom the surrounding environment is a form of | bacterial transformation. |
a evolved from this particular branch of the | bacterial tree. |
y found in Flavobacterium okeanokoites, is a | bacterial type IIS restriction endonuclease consisting |
, this test allows for accurate depiction of | bacterial types. |
ulsed field gel electrophoresis test used in | bacterial typing. |
r two years of work studying the efficacy of | bacterial vaccination in pigs Smith erroneously believ |
gococcal-C disease and the first recombinant | bacterial vaccine against pertussis. |
icrobiology ; it often causes (50% of cases) | bacterial vaginosis . |
Bacterial Vaginosis). | |
the odor of such processes as bad breath and | bacterial vaginosis. |
in the treatment of protozoal infections and | bacterial vaginosis. |
f amoebiasis, giardiasis, trichomoniasis and | bacterial vaginosis. |
ver, elevated pH can also be associated with | bacterial vaginosis.) |
Levans are produced in almost all | bacterial versions of fructan production, as well as b |
Bacterial viability is compromised in dam mutants that | |
those with tuberculosis or untreated fungal, | bacterial, viral or herpes infections without consulti |
oned that involve targeted neutralization of | bacterial virulence phenotypes or pharmacologic augmen |
etic approaches to discover and characterize | bacterial virulence factors involved in host cell inju |
Some | bacterial viruses code for their own RNA polymerases, |
multiply and hence inhibitors selective for | bacterial vs. host DHFR have found application as anti |
They also carry and spread the | bacterial wilt organism, Erwinia tracheiphila and the |
to accumulate about the diversity within the | bacterial world, scientists started to include the bac |
In another approach a | bacterial xylose isomerase was introduced. |
Fort Bragg fever, a | bacterial zoonotic disease |
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