ライフサイエンスコーパス: bacterial conjugation

1 s into isolated mammalian mitochondria using bacterial conjugation.

2 TraM may regulate its essential activity in bacterial conjugation.

3 x DNA-binding protein, performs two roles in bacterial conjugation.

4 implications for horizontal gene transfer in bacterial conjugation.

5 d traI gene is required for DNA transfer via bacterial conjugation.

6 nvolved in initiation of DNA transfer during bacterial conjugation.

7 dly spread through bacterial populations via bacterial conjugation.

8 n an episome replication vector delivered by bacterial conjugation.

9 nd antibiotic resistance genes are spread is bacterial conjugation.

10 nds that the F-pilus, a key component of the bacterial conjugation apparatus, fundamentally restructu

11 th genes are transferred early in a round of bacterial conjugation as part of the plasmid leading reg

12 can be technically challenging, and in vivo bacterial conjugations (bioconjugations) have emerged as

13 F factor TraM is essential for efficient bacterial conjugation, but its molecular function is not

14 The TraY protein is required for efficient bacterial conjugation by Escherichia coli F factor.

15 er recombinase and homologs of gram-positive bacterial conjugation components.

16 Bacterial conjugation enables the horizontal transfer of

17 into Shewanella spp. at high efficiency was bacterial conjugation, enabling transposon mutagenesis a

18 nfirmed to be the functional pBFTM10 oriT by bacterial conjugation experiments using E. coli and B. f

19 delivers a CRISPR-associated transposase by bacterial conjugation for site-specific inactivation of

20 During bacterial conjugation, genetic material from one cell is

21 ate that these regions could be hot spots of bacterial conjugation in the environment.

22 Bacterial conjugation, in which DNA is transferred from

23 The process of bacterial conjugation involves the transfer of a conjuga

24 Bacterial conjugation is an active process that results

25 Horizontal transfer of F-like plasmids by bacterial conjugation is responsible for disseminating a

26 Bacterial conjugation is the fundamental process of unid

27 Bacterial conjugation is the process by which a single s

28 cation pathway for a DNA substrate through a bacterial conjugation machine, specifying the contributi

29 The T4SS are ancestrally related to bacterial conjugation machines, but present-day function

30 ion (T4S) systems are ancestrally related to bacterial conjugation machines.

31 Bacterial conjugation mediates contact-dependent transfe

32 Bacterial conjugation normally involves the unidirection

33 Bacterial conjugation systems are highly promiscuous mac

34 Bacterial conjugation systems are members of the large t

35 y, secretion pathways ancestrally related to bacterial conjugation systems are now referred to as the

36 Entry exclusion has been described in many bacterial conjugation systems, but their molecular mecha

37 mplex to plant cells in a process similar to bacterial conjugation; the mechanism of transfer is begi

38 ast, there has been no evidence of classical bacterial conjugation to higher eukaryotes.

39 ere, we investigate the possibility of using bacterial conjugation to translocate Cas proteins into r

40 Bacterial conjugation, transfer of a single conjugative

41 Bacterial conjugation, transfer of a single strand of a

42 Bacterial conjugation usually requires a DNA relaxase th

43 insect species provide ideal conditions for bacterial conjugation, which suggests that the gut is a