ライフサイエンスコーパス: monomeric G-protein

1 ence of excess ATP, suggesting that they are monomeric G proteins.

2 n-enriched member of the Ras family of small monomeric G proteins.

3 is a direct link between heterotrimeric and monomeric G proteins.

4 closely related members of the Rho family of monomeric G-proteins.

5 with the GDP-bound form of the Rho family of monomeric G proteins, and thus may serve as a nodal poin

6 ne is stimulated by protein kinase C and the monomeric G proteins Arf, RhoA, Cdc42, and Rac1, resulti

7 ide exchange factor for the Rap subfamily of monomeric G proteins, as an important regulator of insul

8 important for the steady-state enrichment of monomeric G proteins at the plasma membrane, but it is n

9 infestans piypt1 gene, a gene that encodes a monomeric G-protein believed to be involved in regulatio

10 lar dynamics simulations to show that Ras, a monomeric G protein, can generate mechanical force upon

11 The monomeric G protein Cdc42 is believed to play an importa

12 B (TcdB), glucosyltransferases that modulate monomeric G-protein function and alter cytoskeletal func

13 ve mutations for investigating Ras and other monomeric G proteins inspired us to create a functionall

14 This small monomeric G protein is both necessary and sufficient for

15 xis pathway consisting of heterotrimeric and monomeric G proteins is sufficient for chemotaxis.

16 is study, we test the hypothesis that Rad, a monomeric G protein, is a novel regulatory mechanism in

17 at the calcium-channel inhibitor Rad(8,9), a monomeric G protein, is enriched in the Ca(V)1.2 microen

18 Rad, a monomeric G protein, is upregulated in uterine arteries

19 es expression of the mRNA encoding the small monomeric G protein Ki-RasA.

20 To determine whether any of these monomeric G-proteins mediate the response to BK, we have

21 r-like proteins (Arls) are a family of small monomeric G proteins of unknown function.

22 kinases were reported to interact with small monomeric G-proteins of the RHO of plant (ROP; also call

23 strate that activated Rap1A, but not related monomeric G proteins, promotes ribosomal protein S6 phos

24 alization of a marker for the Golgi Ras-like monomeric G-protein RAB2:GFP expressed in transgenic tob

25 ly stimulates GTP hydrolytic activity of the monomeric G protein Rap1 and thus is believed to functio

26 The monomeric G protein Rap1 has been implicated in cancer t

27 -like domain with structural homology to the monomeric G protein Ras and a helical domain comprised o

28 Among the substrates of Icmt is the monomeric G protein Ras, a critical component of many si

29 alpha2betagamma, and an activation step of a monomeric G-protein Ras.

30 The monomeric G protein, Ras, transduces multiple signaling

31 perfamily of Ras GTPase signalling proteins (monomeric G proteins) require post-translational carboxy

32 guanine nucleotide exchange factors for the monomeric G protein Rho (RhoGEFs) are well characterized

33 ionally uncoupled from signaling through the monomeric G protein Rho, a protein known to propagate se

34 eceptor kinase pathways or inhibition of the monomeric G proteins Rho, Rac and CDC42.

35 it has been shown that barley RACB, a small monomeric G-protein (ROP, Rho of plants), is required fo

36 ioning to directly link Galpha activation to monomeric G-protein signaling.

37 like the GAPs that regulate the activity of monomeric G proteins such as Ras.

38 RalA and RalB are monomeric G proteins that are 83% identical in amino aci

39 els, a paradigm of ion channel regulation by monomeric G-proteins with significant physiological rami