ライフサイエンスコーパス: Rap protein

1 tagonize the activity of regulators known as Rap proteins.

2 uction of the Phr pentapeptide inhibitors of Rap proteins.

3 that RGL2 may be an effector for Ras and/or Rap proteins.

4 n-specific kinase KinA, a novel activity for Rap proteins.

5 a target protein or regulatory peptide, the Rap protein 3-helix bundle adopts different conformation

6 Thus, a Rap protein acts directly as an antirepressor protein du

7 wed that the endogenous C/EBPalpha, RTA, and RAP proteins all associate with RTA promoter sequences i

8 PhrLS20 peptide, which directly binds to the Rap protein and presumably induces a conformational chan

9 The involvement of multiple Rap proteins and Phr peptides allows multiple physiologi

10 and the processes regulated by many of these Rap proteins and Phr peptides are unknown.

11 B. subtilis encodes several Rap proteins and Phr peptides, and the processes regulat

12 The fact that Rap proteins are conformationally flexible is surprising

13 Homologues of the Serratia Ssp and Rap proteins are found encoded together within other T6S

14 periments, we further demonstrate that these RAP proteins are involved in mitochondrial RNA metabolis

15 Rap proteins are phosphatases and transcriptional anti-a

16 These findings indicate a role for Rap proteins as regulators of morphogenesis in vivo.

17 The KSHV RAP protein binds to C/EBPalpha in vitro and stimulates

18 Furthermore, the KSHV RTA and RAP proteins both interact with cJUN or both cJUN and cF

19 car gene clusters also requires a functional Rap protein, but Rap dependency can be bypassed by secon

20 Rap proteins can be inhibited by specific peptides gener

21 ically, when complexed with target proteins, Rap proteins consist of a C-terminal tetratricopeptide r

22 at subtle differences between highly similar Rap proteins could be reflected in distinct interactions

23 igned affinity reagents, and we propose that Rap proteins could be used as scaffolds for engineering

24 Rap proteins have a modular organization comprising an a

25 ng new intramolecular contacts that lock the Rap protein in an inactive state.

26 Rap proteins in Bacillus subtilis regulate the phosphory

27 n-coupled receptors (GPCRs), but the role of Rap proteins in GPCR signaling is unclear.

28 ely, our results establish the role of these RAP proteins in mitoribosome activity and contribute to

29 d proteins encoded around the Ssp proteins ('Rap' proteins) included two specifically conferring self

30 A recombinant adenovirus expressing the RAP protein induced the expression of both the C/EBPalph

31 Furthermore, upon Phr binding, the entire Rap protein is compressed along the TPR superhelical axi

32 Rap proteins, members of the Ras small G protein superfa

33 ever, in the peptide-bound conformation, the Rap protein N-terminal 3-helix bundle and linker undergo

34 The Rap protein of phage lambda is an endonuclease that nick

35 y means of crystallographic analyses how the Rap proteins of bacilli are regulated by their inhibitor

36 tein designated Cot43 that is related to the Rap proteins of Bacillus subtilis and the PlcR pleiotrop

37 The 11 Rap proteins of Bacillus subtilis comprise a conserved f

38 ite, Plasmodium falciparum, to show that two RAP proteins, PF3D7_0105200 (PfRAP01) and PF3D7_1470600

39 ssion of a large conjugation operon, whereas Rap protein RapLS20 relieves repression.

40 mutations in a plasmid-encoded homolog of a Rap protein, RapP, caused a hyperrugose biofilm phenotyp

41 t a single residue in the switch I region of Rap proteins (residue 39) contributes considerably to th

42 Similar to other Rap proteins that control sporulation, Rap60 modulates p

43 In contrast, Rap proteins that modulate genetic competence interfere

44 activated in vitro by the direct binding of Rap proteins to a neighbouring Ras binding domain (RBD).

45 Rap protein was also assessed for its capacity to influe

46 hat regulates the activity of its associated Rap protein was previously identified downstream of 8 of

47 The atomic structures of two Rap proteins were solved, revealing a novel helical fold