ライフサイエンスコーパス: transformable

1 or synthetic biology because it is naturally transformable.

2 during growth at 64 degrees C but still were transformable.

3 ing DeltadifA or DeltaepsA, became naturally transformable.

4 uncated lipooligosaccharide (LOS) and is non-transformable.

5 lacement mutant was created in the naturally transformable A. actinomycetemcomitans strain ATCC 29523

6 ter and its downstream region in a naturally transformable A. actinomycetemcomitans strain D7S.

7 dium complexes derived from conformationally transformable alpha,omega-bisphosphite ligands combined

8 The element was transformable and conferred macrolide resistance to susc

9 A DeltacytR mutant was non-transformable and defective in expression of comEA and a

10 e four species, which include both naturally transformable and nontransformable species, is in three

11 sis by experimentally evolving the naturally transformable and recombinogenic species Acinetobacter b

12 P1 (also known as strain BD413) is naturally transformable and takes up DNA from any source.

13 ystem that mimics the whole plant, is easily transformable, and competent for longer term studies.

14 ures and materials, ranging from metre-scale transformable architectures to nanometre-scale tunable p

15 In contrast to Lp02, AA100 is only minimally transformable at 30 degrees C, indicating that Lp02 is h

16 rom lp25 and restores infectivity to readily transformable B. burgdorferi lacking lp25 and lp56, was

17 OS-specific mutation in WS1 was moved into a transformable background by transforming FA19 with chrom

18 Naturally transformable bacteria recombine internalized ssDNA with

19 e in Bacillus subtilis and other genetically transformable bacteria.

20 Epidemiological studies of the naturally transformable bacterial pathogen Streptococcus pneumonia

21 Streptococcus pneumoniae is a naturally transformable bacterium that is able to incorporate DNA

22 PO) chromosomal DNA fragments from naturally transformable Burkholderia thailandensis and Burkholderi

23 an rcrR polar (DeltarcrR-P) mutant is hyper-transformable, but an rcrR non-polar (DeltarcrR-NP) muta

24 Multiple ecotypes were transformable by this method.

25 xposed to A. baylyi DNA and phage, naturally transformable cells show greater levels of phage resista

26 Our simplified trade model can be used for transformable commodities where one is assessing market

27 Transformable (competent) cells of Bacillus subtilis are

28 e TDS binding was performed with the related transformable cyanobacterium Synechococcus sp. PCC 7002.

29 t, site-directed mutants were created in the transformable cyanobacterium Synechocystis sp. PCC 6803.

30 r sporulation and CPE production by SM101, a transformable derivative of a C. perfringens food-poison

31 e of the donor strains is mc(2)155, a highly transformable derivative that is considered the prototyp

32 ale metabolic model of a fully sequenced and transformable diatom: Phaeodactylum tricornutum.

33 sins at the molecular level, the genetically transformable F. nucleatum strain ATCC 23726 was screene

34 Therefore, model naturally transformable gram-negative bacteria, including the huma

35 Acinetobacter sp. strain ADP1 is a naturally transformable gram-negative bacterium with simple cultur

36 The naturally transformable Gram-positive bacterium Streptococcus pneu

37 ed thiochromenes having a complex and easily transformable group at the stereogenic center has been d

38 tence of Neisseria meningitidis, a naturally transformable human pathogen.

39 The transformable, infectious strain 5A18 NP1 was transforme

40 ders of magnitude between the least and most transformable isolates.

41 We describe here a transformable liquid-metal nanomedicine, based on a core

42 ation frequencies in numerous previously non-transformable maize inbred lines.

43 Approximately half of strains examined were transformable, many transforming at high rates comparabl

44 ed to create deployable structures and shape transformable materials, folding of curved shells is sti

45 oth analytically and experimentally that the transformable metamaterial has three degrees of freedom,

46 ver, the design of such size and charge dual-transformable nanomedicine is rarely reported.

47 rtance of the design of size and charge dual-transformable nanomedicine.

48 To date, many algal species are transformable only via particle bombardment, and the int

49 le to other organisms that are not naturally transformable or may lack well developed in vivo transpo

50 rforming transposon mutagenesis on naturally transformable organisms along with a technique to rapidl

51 organelles or subcellular compartments from transformable organisms other than A. thaliana.

52 Using a transformable Pinus radiata tracheary element (TE) syste

53 e amenable for detection of any virus with a transformable plant (or animal) host and may also prove

54 efficient GT system that is suitable for all transformable plants regardless of transformation effici

55 ried a different-sized, bla(CTX-M)-positive, transformable plasmid.

56 tumor tissue barriers ideally should have a transformable size and surface, maintaining a certain si

57 e, provides the first example of a naturally transformable species among deltaproteobacteria.

58 This contrasts with the naturally transformable species Neisseria meningitidis and Strepto

59 coccus pneumoniae, like many other naturally transformable species, has evolved sophisticated protein

60 tion, and their over-expression in currently transformable species, suggest that this approach holds

61 In naturally transformable species, the DNA uptake system is only exp

62 cacy and ease of MuGENT in diverse naturally transformable species.

63 -competence-inducing condition or in the non-transformable strain JP-2.

64 the utility of Tn917 mutagenesis of a poorly transformable strain of S. mutans (JH1005) by showing (i

65 nsposon Tn917-mediated mutagenesis of poorly transformable strains of Streptococcus mutans(pTV1-OK) a

66 The com operon of naturally transformable streptococcal species contains three genes

67 ing the production of this polysaccharide in transformable Streptococcus gordonii 38.

68 proposed metamaterial can be used to realize transformable structures with arbitrary architectures, h

69 than that seen in the wild type but was not transformable, suggesting that while comW is not needed

70 pressed in a phycocyanin-minus mutant of the transformable Synechocystis sp. strain 6803.

71 ctive and likely to have application in many transformable systems where screening by gene and promot

72 orphisms appear more common among genomes of transformable than nontransformable bacteria.

73 vast majority of these isolates (94.7%) were transformable, the transformation frequency differed by

74 ntion and its underlying brain circuitry are transformable through training.

75 , delta pilBC or delta pilD mutants were non-transformable (transformation frequency <10(-8)).

76 ke system, most bacterial species appear non-transformable under laboratory conditions.

77 d for the first time that GAS were naturally transformable when grown in biofilms and during coloniza

78 sion of rcrPQ, yielded a strain that was not transformable with exogenous DNA.

79 uII) and TSm-630 (lacZDeltaM15), were highly transformable with plasmids, lacked detectable beta-Gal

80 iltrated alumina, feldspathic porcelain, and transformable zirconiaare presented as case studies.