Add to ORKGRAS proteins cycling between the active-form (GTP-bound) and inactive-form (GDP-bound) play a key role in cell signaling pathways that control cell survival, proliferation, and differentiation. Mutations at codon 12, 13, and 61 in RAS are known to attenuate its GTPase activity favoring the RAS active state and constitutively active downstream signaling. This hyperactivation accounts for various malignancies including pancreatic, lung, and colorectal cancers. Active KRAS is found to exist in equilibrium between two rapidly interconverting conformational states (State1-State2) in solution. Due to this dynamic feature of the protein, the 1H-15N correlation cross-peak signals of several amino acid (AA) residues of KRAS belonging to the flexible...
The KRAS GTPase plays a critical role in the control of cellular growth. The activity of KRAS is reg...
Ras proteins serve as crucial signaling modulators in cell proliferation through their ability to hy...
Oncogenic KRAS mutations introduce discrete amino acid substitutions that reduce intrinsic Ras GTPas...
RAS proteins cycling between the active-form (GTP-bound) and inactive-form (GDP-bound) play a key ro...
K-Ras protein is a membrane-bound small GTPase acting as a molecular switch. It plays a key role in ...
AbstractRas regulates a variety of different signal transduction pathways acting as molecular switch...
The small GTPase Ras is an important signaling molecule acting as a molecular switch in eukaryotic c...
Despite the prominent role of the K-Ras protein in many different types of human cancer, major gaps ...
Nearly 30% of human cancers have mutations in one of the three RAS genes. Despite over 30 years of d...
Ras and its homologues are central to regulation of a multitude of cellular processes. Ras in comple...
Abstract: The Ral proteins (RalA and RalB) are small G proteins of the Ras family that have been imp...
For efficient targeting of oncogenic K-Ras interaction sites, a mechanistic picture of the Ras-cycle...
For efficient targeting of oncogenic K-Ras interaction sites, a mechanistic picture of the Ras-cycle...
(A) KRas4B is activated by the son of sevenless 1 (SOS1) nucleotide exchange factor (GEF), while GAP...
Cycling between a GTP bound "on" state and a GDP bound "off" state, guanine nucleotide-binding (GNB)...
The KRAS GTPase plays a critical role in the control of cellular growth. The activity of KRAS is reg...
Ras proteins serve as crucial signaling modulators in cell proliferation through their ability to hy...
Oncogenic KRAS mutations introduce discrete amino acid substitutions that reduce intrinsic Ras GTPas...
RAS proteins cycling between the active-form (GTP-bound) and inactive-form (GDP-bound) play a key ro...
K-Ras protein is a membrane-bound small GTPase acting as a molecular switch. It plays a key role in ...
AbstractRas regulates a variety of different signal transduction pathways acting as molecular switch...
The small GTPase Ras is an important signaling molecule acting as a molecular switch in eukaryotic c...
Despite the prominent role of the K-Ras protein in many different types of human cancer, major gaps ...
Nearly 30% of human cancers have mutations in one of the three RAS genes. Despite over 30 years of d...
Ras and its homologues are central to regulation of a multitude of cellular processes. Ras in comple...
Abstract: The Ral proteins (RalA and RalB) are small G proteins of the Ras family that have been imp...
For efficient targeting of oncogenic K-Ras interaction sites, a mechanistic picture of the Ras-cycle...
For efficient targeting of oncogenic K-Ras interaction sites, a mechanistic picture of the Ras-cycle...
(A) KRas4B is activated by the son of sevenless 1 (SOS1) nucleotide exchange factor (GEF), while GAP...
Cycling between a GTP bound "on" state and a GDP bound "off" state, guanine nucleotide-binding (GNB)...
The KRAS GTPase plays a critical role in the control of cellular growth. The activity of KRAS is reg...
Ras proteins serve as crucial signaling modulators in cell proliferation through their ability to hy...
Oncogenic KRAS mutations introduce discrete amino acid substitutions that reduce intrinsic Ras GTPas...