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ARHGAP1

  • Official Full Name

    Rho GTPase activating protein 1

  • Overview

    Rho GTPase-activating protein 1 is an enzyme that in humans is encoded by the ARHGAP1 gene.
  • Synonyms

    ARHGAP1; Rho GTPase activating protein 1; rho GTPase-activating protein 1; Cdc42GAP; p50rhoGAP; RhoGAP; ARHGAP 1; CDC42 GTPase activating protein; GTPase activating protein rhoOGAP; OTTHUMP00000233485; OTTHUMP00000233486; p50 RhoGAP; Rho related small GTPase protein activator; Rho type GTPase activating protein 1; RHOGAP1; p50-RhoGAP; CDC42 GTPase-activating protein; GTPase-activating protein rhoOGAP; rho-type GTPase-activating protein 1; rho-related small GTPase protein activator;

  • Recombinant Proteins
  • Cell & Tissue Lysates
  • Protein Pre-coupled Magnetic Beads
  • Antibody
  • Human
  • Mouse
  • Rhesus Macaque
  • Zebrafish
  • E.coli
  • HEK293
  • HEK293T
  • Mammalian Cell
  • Mammalian cells
  • Wheat Germ
  • Flag
  • GST
  • His
  • His (Fc)
  • Avi
  • Myc
  • DDK
  • N/A
  • N
Species Cat.# Product name Source (Host) Tag Protein Length Price
Human ARHGAP1-36H Active Recombinant Human ARHGAP1 protein, GST-tagged E.coli GST
Human ARHGAP1-9812H Recombinant Human ARHGAP1, GST-tagged E.coli GST C-term-350a.a.
Human ARHGAP1-8745HCL Recombinant Human ARHGAP1 293 Cell Lysate HEK293 N/A
Human ARHGAP1-373H Recombinant Human ARHGAP1 Protein, His (Fc)-Avi-tagged HEK293 His (Fc)-Avi
Human ARHGAP1-37H Active Recombinant Human ARHGAP1 Protein (Full Length), N-His tagged E.coli N-His Full Length
Human ARHGAP1-373H-B Recombinant Human ARHGAP1 Protein Pre-coupled Magnetic Beads HEK293
Human ARHGAP1-26235TH Recombinant Human ARHGAP1 Wheat Germ N/A 100 amino acids
Human ARHGAP1-2058HFL Recombinant Full Length Human ARHGAP1 Protein, C-Flag-tagged Mammalian cells Flag
Mouse Arhgap1-1678M Recombinant Mouse Arhgap1 Protein, Myc/DDK-tagged HEK293T Myc/DDK
Rhesus Macaque ARHGAP1-387R Recombinant Rhesus monkey ARHGAP1 Protein, His-tagged Mammalian Cell His
Rhesus Macaque ARHGAP1-216R-B Recombinant Rhesus Macaque ARHGAP1 Protein Pre-coupled Magnetic Beads HEK293
Rhesus Macaque ARHGAP1-216R Recombinant Rhesus Macaque ARHGAP1 Protein, His (Fc)-Avi-tagged HEK293 His (Fc)-Avi
Zebrafish ARHGAP1-2523Z Recombinant Zebrafish ARHGAP1 Mammalian Cell His
  • Involved Pathway
  • Protein Function
  • Interacting Protein
  • ARHGAP1 Related Articles

ARHGAP1 involved in several pathways and played different roles in them. We selected most pathways ARHGAP1 participated on our site, such as Regulation of CDC42 activity, Regulation of RAC1 activity, Rho GTPase cycle, which may be useful for your reference. Also, other proteins which involved in the same pathway with ARHGAP1 were listed below. Creative BioMart supplied nearly all the proteins listed, you can search them on our site.

Pathway Name Pathway Related Protein
Regulation of CDC42 activityITSN2;BCAR3;ARHGEF25;DOCK9;SPATA13;ARHGAP1;RALBP1;ARHGAP17;DOCK6
Regulation of RAC1 activityDOCK6;DEF6;EPS8;PREX2;ARHGAP9;RAP1GDS1;CHN2;CHN1;ARHGAP1
Rho GTPase cycleARHGAP23;RHOT1B;ARHGAP31;ABR;RHOUA;ARHGAP10;ARHGAP40;GMIP;ARHGAP1
Signal TransductionEMR1;AATF;PRLH;ARHGAP33;CDC42EP5;MKL1;GPR37B;ANXA1A;CCL35.1
Signaling by Rho GTPasesARHGAP8;TAGAPB;FGD4;FAM13A;TAX1BP3;OPHN1;GMIP;WIPF3;ARHGAP20

ARHGAP1 has several biochemical functions, for example, GTPase activator activity, SH3 domain binding, SH3/SH2 adaptor activity. Some of the functions are cooperated with other proteins, some of the functions could acted by ARHGAP1 itself. We selected most functions ARHGAP1 had, and list some proteins which have the same functions with ARHGAP1. You can find most of the proteins on our site.

Function Related Protein
GTPase activator activityARHGAP18;TBC1D14;GRTP1A;ALS2CL;TBC1D1;RANGAP1B;DOCK1;ARHGAP35;THY1
SH3 domain bindingMYPN;CYBA;FUT8;PAK3;GRIK5;SH2D2A;GRB2;PDE4D;CCDC6
SH3/SH2 adaptor activityCRKL;SH2D2A;SKAP2;TOB1;KHDRBS1;CNTNAP1;ITSN2;SH3BP2;SH2D3C
protein bindingFHL3;CD8A;CCPG1;SNCA;SULT1A3;KCNE1L;KRIT1;MTM1;CLEC1B

ARHGAP1 has direct interactions with proteins and molecules. Those interactions were detected by several methods such as yeast two hybrid, co-IP, pull-down and so on. We selected proteins and molecules interacted with ARHGAP1 here. Most of them are supplied by our site. Hope this information will be useful for your research of ARHGAP1.

CDC42; RHOA; CDC42; CHEK2; RHOC; AGTRAP; q8d0i9_yerpe; pi3p; 1-phosphatidyl-1d-myo-inositol 4,5-bisphosphate; ere_dna; STK4

Jarius, S; Scharf, M; et al. Antibodies to the inositol 1,4,5-trisphosphate receptor type 1 (ITPR1) in cerebellar ataxia. Journal of Neuroinflammation 11:-(2014).
Navarrete-Perea, J; Moguel, B; et al. Identification and quantification of host proteins in the vesicular fluid of porcine Taenia solium cysticerci. EXPERIMENTAL PARASITOLOGY 143:11-17(2014).
  • Q&As
  • Reviews

Q&As (20)

Ask a question
Are there any known post-translational modifications of the ARHGAP1 protein? 02/19/2023

Yes, ARHGAP1 can undergo several post-translational modifications, including phosphorylation, acetylation, and ubiquitination. These modifications can modulate its activity, localization, and protein-protein interactions.

Is ARHGAP1 involved in any specific cellular structures or organelles? 11/13/2022

ARHGAP1 is primarily associated with the cell membrane or the cytoskeleton. It localizes to the plasma membrane and can interact with actin filaments, contributing to cytoskeletal rearrangement and cell motility.

Can ARHGAP1 interact with other proteins or molecules? 11/09/2022

Yes, ARHGAP1 can interact with various proteins and molecules. It is known to interact with Rho GTPases, such as RhoA, Rac1, and Cdc42, which are key regulators of the actin cytoskeleton. ARHGAP1 can also interact with scaffolding proteins like IQGAP1 and ECT2, as well as other GAP proteins, to regulate Rho GTPase signaling. Additionally, ARHGAP1 has been found to interact with components of the Hippo pathway, such as MST1 and LATS1, indicating its involvement in cell growth control.

Are there any therapeutic implications or potential drug targets related to ARHGAP1? 08/14/2022

The dysregulation of ARHGAP1 in certain diseases suggests that it could be a potential therapeutic target. Developing drugs or strategies to modulate the activity of ARHGAP1 or its interactions with Rho GTPases may hold therapeutic potential for conditions involving aberrant Rho GTPase signaling. However, further research is needed to explore these possibilities.

Are there any known disease-associated mutations in ARHGAP1? 03/12/2022

Yes, genetic mutations in ARHGAP1 have been reported in certain diseases. For example, mutations in ARHGAP1 have been identified in individuals with intellectual disabilities and developmental delay. These mutations can disrupt the protein's function or impair its interactions, leading to abnormal neuronal development and function. Additionally, alterations in ARHGAP1 expression have been observed in various cancers, indicating its involvement in disease pathogenesis.

What other cellular processes does ARHGAP1 regulate besides actin cytoskeleton dynamics? 12/02/2021

Besides its role in regulating actin cytoskeleton dynamics, ARHGAP1 has been implicated in various other cellular processes. For example, ARHGAP1 has been shown to affect cell proliferation and survival. It can modulate cell cycle progression by interacting with proteins involved in cell division, such as ECT2 and Cyclin B1. ARHGAP1 has also been found to regulate apoptosis signaling pathways by interacting with caspase-3 and Bcl-2 family proteins. Additionally, ARHGAP1 has been implicated in cell adhesion, angiogenesis, and epithelial-to-mesenchymal transition (EMT), highlighting its involvement in multiple cellular processes.

Is ARHGAP1 expressed in all cell types? 09/01/2021

ARHGAP1 is widely expressed in various cell types and tissues. It is found in both normal and cancerous cells. While the expression levels may vary among different cell types, ARHGAP1 has been detected in neurons, fibroblasts, epithelial cells, endothelial cells, and immune cells, among others. Its expression can be regulated by various factors, including signaling pathways, developmental cues, and disease conditions.

Are there any known genetic variations or polymorphisms that affect ARHGAP1 function? 02/22/2021

Genetic variations in the ARHGAP1 gene have been associated with certain diseases or conditions, including cancer and neurological disorders. These variations can alter protein function, expression levels, or interactions, potentially contributing to disease pathogenesis.

Does ARHGAP1 have any interacting partners or binding partners? 11/16/2020

Yes, ARHGAP1 has been found to interact with various proteins. For instance, it can bind to other Rho GAPs, Rho GTPases, and actin-binding proteins, forming complexes that regulate cytoskeletal dynamics and cellular processes.

Is ARHGAP1 essential for embryonic development? 01/21/2020

Studies in animal models have indicated that ARHGAP1 is not essential for embryonic development, as mice lacking ARHGAP1 are viable and fertile. However, these mice do exhibit defects in neural tube closure and craniofacial development, suggesting a developmental role for ARHGAP1. Furthermore, ARHGAP1 has been implicated in tissue morphogenesis during embryonic development, highlighting its importance in organ formation.

How does ARHGAP1 regulate Rho GTPases? 01/11/2020

ARHGAP1 acts as a GTPase-activating protein (GAP) for Rho GTPases, including RhoA, Rac1, and Cdc42. It stimulates the intrinsic GTPase activity of these proteins, leading to the hydrolysis of GTP and the inactivation of the GTPases.

What cellular processes or pathways are regulated by ARHGAP1? 11/10/2019

ARHGAP1 is involved in diverse cellular processes, including actin cytoskeletal remodeling, cell migration, cell adhesion, cell polarity, and cell division. It can also influence signaling pathways such as the Rho GTPase signaling pathway and the Hippo signaling pathway.

Does ARHGAP1 play a role in embryonic development? 07/22/2018

Yes, studies have suggested that ARHGAP1 is involved in embryonic development. It has been found to participate in processes such as neural tube closure and morphogenesis of various tissues and organs, indicating its importance in embryonic development and organogenesis.

Can ARHGAP1 expression or activity be regulated by external stimuli? 07/10/2017

Yes, the expression and activity of ARHGAP1 can be regulated by various extracellular signals and stimuli. For example, growth factors, cytokines, and other signaling molecules can modulate ARHGAP1 expression levels or its interaction with other proteins, thereby influencing its function in the cell.

Can ARHGAP1 be targeted for therapeutic purposes? 06/24/2017

Given its involvement in various diseases, including cancer, ARHGAP1 has emerged as a potential therapeutic target. Strategies to target ARHGAP1 include small molecule inhibitors or modulators that can specifically regulate its activity. By modulating ARHGAP1, it may be possible to alter cell migration, invasion, or other processes involved in disease progression. However, further research is needed to fully understand the therapeutic potential of targeting ARHGAP1.

Is ARHGAP1 expression tissue-specific or ubiquitously expressed? 04/12/2017

ARHGAP1 is broadly expressed in various tissues and cell types, suggesting that it may have widespread functions throughout the body.

Are there any therapeutic implications of targeting ARHGAP1 in cancer treatment? 11/18/2016

Targeting ARHGAP1 holds potential therapeutic implications in cancer treatment. As ARHGAP1 is involved in various processes critical for cancer progression, such as cell migration, invasion, and survival, modulating its activity could potentially inhibit tumor growth and metastasis. Targeting ARHGAP1 could be achieved through the development of small molecule inhibitors or by manipulating its expression using gene therapy approaches. However, more research is needed to fully understand the mechanisms and potential side effects of targeting ARHGAP1 in cancer therapeutics.

Are there any diseases or conditions associated with ARHGAP1 mutations or dysregulation? 07/25/2016

Mutations or dysregulation of ARHGAP1 have been implicated in several diseases. For example, alterations in ARHGAP1 expression or activity have been observed in certain types of cancer, such as breast cancer. Dysregulation of ARHGAP1 has also been linked to neurological disorders, including intellectual disability and epilepsy.

Can ARHGAP1 be regulated by other proteins or signaling pathways? 05/11/2016

Yes, ARHGAP1 can be regulated by other proteins and signaling pathways. For example, the small GTPase RhoA can interact with and activate ARHGAP1, leading to the inhibition of RhoA signaling. Additionally, various kinases, phosphatases, and scaffold proteins can modulate ARHGAP1 activity and its interactions within signaling networks.

Are there any known regulatory mechanisms that control the expression or activity of ARHGAP1? 02/29/2016

Several regulatory mechanisms have been identified that control the expression or activity of ARHGAP1. At the transcriptional level, ARHGAP1 can be regulated by various transcription factors, such as Runx1, PPARδ, and SP1, which bind to specific regions in the ARHGAP1 gene promoter. The activity of ARHGAP1 can also be regulated through post-translational modifications. For example, phosphorylation of ARHGAP1 by kinases, such as PKC and PAK, can affect its cellular localization and GAP activity. Additionally, ARHGAP1 can interact with scaffolding proteins and other regulators, which can modulate its function and localization within the cell.

Customer Reviews (8)

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Reviews
07/08/2022

    The manufacturer's outstanding technical support serves as a valuable resource, providing prompt and knowledgeable assistance whenever I encounter difficulties or require guidance.

    02/11/2022

      he ARHGAP1 protein is an exceptional choice that meets the highest standards of quality, perfectly catering to my experimental requirements.

      06/18/2021

        when employed in Western Blotting experiments, the ARHGAP1 protein consistently generates sharp and well-defined protein bands, enabling precise visualization and analysis of protein expression.

        03/02/2018

          the ARHGAP1 protein's well-documented properties and thoroughly tested functionality give me the confidence to integrate it seamlessly into my experimental setup.

          12/03/2017

            I highly recommend the use of the ARHGAP1 protein in various experimental applications.

            08/20/2017

              Their expertise and commitment to customer satisfaction are truly commendable, ensuring that I have access to the necessary resources to overcome any experimental hurdles that may arise.

              11/16/2016

                the ARHGAP1 protein has been successfully utilized in protein electron microscopy structure analysis, providing valuable insights into molecular structures and interactions.

                06/06/2016

                  Considering its outstanding performance across multiple assays, I confidently endorse the inclusion of the ARHGAP1 protein in diverse research studies.

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