2dpx Citations

Crystal structure of human Rad GTPase of the RGK-family.

Yanuar A, Sakurai S, Kitano K, Hakoshima T
Genes Cells 11 961-8 (2006)
Cited: 15 times
EuropePMC logo PMID: 16866878

Abstract

Rad (Ras associated with diabetes) is an RGK-family small GTPase that is over-expressed in the skeletal muscle of humans with type II diabetes. Unlike other small GTPases, RGK family members including Rad lack several conserved residues in the GTPase domain. Here, we report the crystal structure of the GTPase domain of human Rad in the GDP-bound form at 1.8 A resolution. The structure revealed unexpected disordered structures of both switches I and II. We showed that the conformational flexibility of both switches is caused by non-conservative substitutions in the G2 and G3 motifs forming the switch cores together with other substitutions in the structural elements interacting with the switches. Glycine-rich sequences of the switches would also contribute to the flexibility. Switch I lacks the conserved phenylalanine that makes non-polar interactions with the guanine base in H-Ras. Instead, water-mediated hydrogen bonding interactions were observed in Rad. The GDP molecule is located at the same position as in H-Ras and adopts a similar conformation as that bound in H-Ras. This similarity seems to be endowed by the conserved hydrogen bonding interactions with the guanine base-recognition loops and the magnesium ion that has a typical octahedral coordination shell identical to that in H-Ras.

Reviews - 2dpx mentioned but not cited (1)

  1. Friend or Foe: Regulation, Downstream Effectors of RRAD in Cancer. Sun Z, Li Y, Tan X, Liu W, He X, Pan D, Li E, Xu L, Long L. Biomolecules 13 477 (2023)

Articles - 2dpx mentioned but not cited (3)

  1. Predicting new indications for approved drugs using a proteochemometric method. Dakshanamurthy S, Issa NT, Assefnia S, Seshasayee A, Peters OJ, Madhavan S, Uren A, Brown ML, Byers SW. J Med Chem 55 6832-6848 (2012)
  2. Structure of the GDP-bound G domain of the RGK protein Rem2. Reymond P, Coquard A, Chenon M, Zeghouf M, El Marjou A, Thompson A, Ménétrey J. Acta Crystallogr Sect F Struct Biol Cryst Commun 68 626-631 (2012)
  3. Effects of Pyrazine Derivatives and Substituted Positions on the Photoelectric Properties and Electromemory Performance of D⁻A⁻D Series Compounds. Song X, Kong L, Du H, Li X, Feng H, Zhao J, Xie Y. Materials (Basel) 11 E2063 (2018)


Reviews citing this publication (6)

  1. Structure-function relationships of the G domain, a canonical switch motif. Wittinghofer A, Vetter IR. Annu Rev Biochem 80 943-971 (2011)
  2. The ß subunit of voltage-gated Ca2+ channels. Buraei Z, Yang J. Physiol Rev 90 1461-1506 (2010)
  3. The RGK family of GTP-binding proteins: regulators of voltage-dependent calcium channels and cytoskeleton remodeling. Correll RN, Pang C, Niedowicz DM, Finlin BS, Andres DA. Cell Signal 20 292-300 (2008)
  4. Progress in the structural understanding of voltage-gated calcium channel (CaV) function and modulation. Minor DL, Findeisen F. Channels (Austin) 4 459-474 (2010)
  5. Regulation of voltage-dependent calcium channels by RGK proteins. Yang T, Colecraft HM. Biochim Biophys Acta 1828 1644-1654 (2013)
  6. RGK regulation of voltage-gated calcium channels. Buraei Z, Lumen E, Kaur S, Yang J. Sci China Life Sci 58 28-38 (2015)

Articles citing this publication (5)

  1. Structure-function studies of the G-domain from human gem, a novel small G-protein. Opatowsky Y, Sasson Y, Shaked I, Ward Y, Chomsky-Hecht O, Litvak Y, Selinger Z, Kelly K, Hirsch JA. FEBS Lett 580 5959-5964 (2006)
  2. Molecular determinants of Gem protein inhibition of P/Q-type Ca2+ channels. Fan M, Zhang WK, Buraei Z, Yang J. J Biol Chem 287 22749-22758 (2012)
  3. Rad and Rem are non-canonical G-proteins with respect to the regulatory role of guanine nucleotide binding in Ca(V)1.2 channel regulation. Chang DD, Colecraft HM. J Physiol 593 5075-5090 (2015)
  4. Decreased expression of GEM in osteoarthritis cartilage regulates chondrogenic differentiation via Wnt/β-catenin signaling. Gan L, Deng Z, Wei Y, Li H, Zhao L. J Orthop Surg Res 18 751 (2023)
  5. Sympathetic Nervous System Regulation of Cardiac Calcium Channels. Del Rivero Morfin PJ, Marx SO, Ben-Johny M. Handb Exp Pharmacol 279 59-82 (2023)


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