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  Domain Name: Rop_like
Rho-related protein from plants (Rop)-like. The Rop (Rho-related protein from plants) subfamily plays a role in diverse cellular processes, including cytoskeletal organization, pollen and vegetative cell growth, hormone responses, stress responses, and pathogen resistance. Rops are able to regulate several downstream pathways to amplify a specific signal by acting as master switches early in the signaling cascade. They transmit a variety of extracellular and intracellular signals. Rops are involved in establishing cell polarity in root-hair development, root-hair elongation, pollen-tube growth, cell-shape formation, responses to hormones such as abscisic acid (ABA) and auxin, responses to abiotic stresses such as oxygen deprivation, and disease resistance and disease susceptibility. An individual Rop can have a unique function or an overlapping function shared with other Rop proteins; in addition, a given Rop-regulated function can be controlled by one or multiple Rop proteins. For example, Rop1, Rop3, and Rop5 are all involved in pollen-tube growth; Rop2 plays a role in response to low-oxygen environments, cell-morphology, and root-hair development; root-hair development is also regulated by Rop4 and Rop6; Rop6 is also responsible for ABA response, and ABA response is also regulated by Rop10. Plants retain some of the regulatory mechanisms that are shared by other members of the Rho family, but have also developed a number of unique modes for regulating Rops. Unique RhoGEFs have been identified that are exclusively active toward Rop proteins, such as those containing the domain PRONE (plant-specific Rop nucleotide exchanger). Most Rho proteins contain a lipid modification site at the C-terminus, with a typical sequence motif CaaX, where a = an aliphatic amino acid and X = any amino acid. Lipid binding is essential for membrane attachment, a key feature of most Rho proteins. Due to the presence of truncated sequences in this CD, the lipid modification site is not available for annotation.
No pairwise interactions are available for this conserved domain.

Total Mutations Found: 114
Total Disease Mutations Found: 69
This domain occurred 90 times on human genes (161 proteins).



  AUTOIMMUNE LYMPHOPROLIFERATIVE SYNDROME, TYPE IV
  BLADDER CANCER, SOMATIC
  BLADDER CANCER, SOMATIC, INCLUDED
  BLADDER CANCER, TRANSITIONAL CELL, SOMATIC
  BREAST ADENOCARCINOMA, SOMATIC
  CARDIOFACIOCUTANEOUS SYNDROME 2
  CARDIOFACIOCUTANEOUS SYNDROME 2 (CFC2)
  CHARCOT-MARIE-TOOTH DISEASE 2B (CMT2B)
  COSTELLO SYNDROME
  COSTELLO SYNDROME, INCLUDED;;
  COSTELLO SYNDROME, SEVERE
  EPIDERMAL NEVUS WITH UROTHELIAL CAN
  EPIDERMAL NEVUS, SOMATIC
  EPIDERMAL NEVUS, SOMATIC, INCLUDED
  EPIDERMAL NEVUS, SOMATIC, INCLUDED;;
  FACIOCUTANEOSKELETAL SYNDROME (FCSS)
  GASTRIC CANCER, SOMATIC
  GASTRIC CANCER, SOMATIC, INCLUDED;;
  GRISCELLI SYNDROME, TYPE 2
  JUVENILE MYELOMONOCYTIC LEUKEMIA, INCLUDED;;
  LUNG CANCER, SOMATIC
  LUNG CANCER, SQUAMOUS CELL, SOMATIC
  MENTAL RETARDATION, X-LINKED, SYNDROMIC, MARTIN-PROBST TYPE
  MYOPATHY, CONGENITAL, WITH EXCESS OF MUSCLE SPINDLES
  MYOPATHY, CONGENITAL, WITH EXCESS OF MUSCLE SPINDLES, INCLUDED;;
  NEUTROPHIL IMMUNODEFICIENCY SYNDROME
  NEVUS SEBACEOU
  NEVUS SEBACEOUS, SOMATIC
  NEVUS SEBACEOUS, SOMATIC, INCLUDED
  NEVUS SEBACEOUS, SOMATIC, INCLUDED;;
  NOONAN SYNDROME 3
  NOONAN SYNDROME 6
  NOONAN SYNDROME 6, INCLU
  NOONAN SYNDROME 8
  OVARIAN CANCER, SOMATIC
  PANCREATIC CARCINOMA, SOMATIC
  PILOCYTIC ASTROCYTOMA, SOMATIC
  RECTAL CANCER, SOMATIC
  SCHIMMELPENNING-FEUERSTEIN-MIMS SYNDROME, SOMATIC MOSAIC, INCLUDED;;
  SPERMATOCYTIC SEMINOMA, SOMATIC, INCLUDED
  THYROID CARCINOMA, FOLLICULAR, SOMATIC
  WARBURG MICRO SYNDROME 3


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Range on the Protein:  

   Protein ID            Protein Position

Domain Position:  


Feature Name:Total Found:
GTP/Mg2+ binding site
putative GAP (GTPase-acti
putative GEF (guanine nuc
putative GDI (guanine nuc
putative effector interac
Switch I region
Switch II region
G1 box
G2 box
G3 box
G4 box
G5 box












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Please Cite: Peterson, T.A., Adadey, A., Santana-Cruz ,I., Sun, Y., Winder A, Kann, M.G., (2010) DMDM: Domain Mapping of Disease Mutations. Bioinformatics 26 (19), 2458-2459.

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