Affinage

Showing GOLGA1GOLGIN-97 is a alias.

GOLGA1

Golgin subfamily A member 1 · UniProt Q92805

Length
767 aa
Mass
88.2 kDa
Annotated
2026-06-10
63 papers in source corpus 21 papers cited in narrative 20 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 6/6 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

Golgin-97 (GOLGA1) is a trans-Golgi network (TGN) coiled-coil tethering protein that captures endosome- and recycling-endosome-derived transport carriers and promotes selective export of basolateral cargoes from the TGN (PMID:28122620, PMID:16262725). It is recruited to the TGN through a C-terminal ~50-residue GRIP domain that is necessary and sufficient for Golgi targeting (PMID:10209120, PMID:10209123, PMID:10209125); targeting requires a three-tier hierarchy in which the GRIP domain first self-dimerizes, then bivalently engages the activated GTPase Arl1, and finally contacts membrane lipids directly through basic and hydrophobic residues flanking the domain (PMID:16899086, PMID:15654769). Arl1 itself depends on the upstream regulator ARFRP1 for its own Golgi localization, placing golgin-97 at the bottom of an ARFRP1→Arl1→golgin-97 recruitment cascade that governs both anterograde and retrograde TGN transport (PMID:16129887); Arl1 stability is required continuously, as its oxidative degradation strips golgin-97 from the membrane (PMID:32583744). At its exposed N-terminus, a short capture motif shared with golgin-245 docks incoming vesicles via the bridging adaptor TBC1D23, whose rhodanese-TBC platform binds the golgin tip while its C-terminal domain engages the WASH complex on endosomal vesicles and recognizes an acidic TLY cargo motif, thereby conferring endosome-to-Golgi specificity (PMID:28122620, PMID:29084197, PMID:38552021, PMID:32453802). Golgin-97 selectively mediates TGN export of E-cadherin and the potassium channel Kir2.1, the latter through direct GRIP-domain binding, and its E-cadherin/VSVG export function is gated by PARP12-mediated mono-ADP-ribosylation of an acidic cluster in its coiled-coil, downstream of PKD activation (PMID:16262725, PMID:30123141, PMID:34969853). Independently of its Golgi role, golgin-97 suppresses NF-κB activity by maintaining IκBα levels, a function exhibited by both membrane-bound and cytosolic pools (PMID:29703230).

Mechanistic history

Synthesis pass · year-by-year structured walk · 14 steps
  1. 1999 High

    Establishing how golgin-97 reaches the Golgi, the C-terminal GRIP domain was defined as a transferable, self-contained Golgi-targeting determinant and the conserved aromatic/tyrosine residues required for it were mapped.

    Evidence GFP-GRIP fusion targeting, site-directed mutagenesis, and competitive displacement in mammalian cells

    PMID:10209120 PMID:10209123 PMID:10209125

    Open questions at the time
    • Did not identify the membrane determinant the GRIP domain recognizes
    • Rab6 binding on blots was later superseded by Arl1 as the primary targeting GTPase
  2. 2003 Medium

    Dominant-negative GRIP-domain overexpression showed golgin-97 is functionally required for TGN-to-plasma-membrane transport and TGN organization, moving it from a localization marker to a trafficking effector.

    Evidence Isolated GRIP-domain overexpression with EM, transport and furin-cleavage assays, and a tyrosine mutant control

    PMID:13130094

    Open questions at the time
    • Overexpression of an isolated fragment may act non-physiologically
    • No direct cargo or vesicle partner identified
  3. 2005 Medium

    The targeting GTPase and the upstream cascade were resolved: Arl1-GTP recruits golgin-97 via the GRIP domain, and ARFRP1 is required upstream to position Arl1, distinguishing golgin-97 from Arl1-independent GRIP golgins.

    Evidence Co-IP, in vivo GRIP overexpression and colocalization, plus siRNA of ARFRP1 with VSV-G and Shiga toxin transport assays

    PMID:15522892 PMID:16129887

    Open questions at the time
    • Quantitative contribution of lipid vs GTPase binding not separated here
    • Did not define the captured vesicle class
  4. 2005 High

    Biophysical characterization established golgin-97 as an extended parallel coiled-coil homodimer, explaining how a single golgin presents a long tether without cross-pairing with other GRIP proteins.

    Evidence Co-IP, chemical cross-linking, yeast two-hybrid, and CD spectroscopy of recombinant protein

    PMID:15654769

    Open questions at the time
    • No full-length structure
    • Stoichiometry of dimer engagement with Arl1 not resolved
  5. 2005 High

    The first specific cargo was identified, showing golgin-97 is not a generic tether but selectively required for E-cadherin export in TGN-derived tubulovesicular carriers.

    Evidence Live imaging of GFP-tagged carriers plus siRNA knockdown with E-cadherin trafficking readout

    PMID:16262725

    Open questions at the time
    • Mechanism linking golgin-97 to the E-cadherin carrier not defined
    • Direct vs indirect cargo selection unclear at this stage
  6. 2006 High

    The molecular logic of GRIP targeting was resolved into a three-tier hierarchy (dimerization, bivalent Arl1-GTP binding, direct lipid contact), integrating the earlier mutagenesis and GTPase data into one mechanism.

    Evidence Mutational analysis of >30 GRIP mutants with SPR lipid binding and in vivo targeting assays

    PMID:16899086

    Open questions at the time
    • Lipid identity recognized by basic/hydrophobic residues not specified
    • Did not address N-terminal vesicle-capture function
  7. 2006 Medium

    A non-canonical role emerged in poxvirus morphogenesis, where golgin-97 is rerouted to viral factories and required for mature virion formation.

    Evidence Immunofluorescence, virion fractionation, siRNA depletion and EM of virion morphology

    PMID:16987983 PMID:17276477

    Open questions at the time
    • Mechanism by which golgin-97 contributes to core maturation unknown
    • Relationship to its TGN tethering function unclear
  8. 2010 Medium

    Identification of the Rab11 effector FIP1/RCP as a C-terminal partner provided a molecular link for tethering recycling-endosome-derived retrograde carriers, separate from the GRIP recruitment function.

    Evidence MS identification, co-IP, EM, and TGN38/Shiga toxin retrograde transport assays

    PMID:20610657

    Open questions at the time
    • Direct vs adaptor-mediated binding not fully resolved
    • Single lab, not reciprocally cross-validated against later TBC1D23 model
  9. 2017 High

    The N-terminal capture motif and its adaptor were defined, showing a short tip region is necessary and sufficient to capture a specific endosome-derived carrier class via the bridging adaptor TBC1D23, which links the golgin tip to the WASH complex.

    Evidence Ectopic golgin relocation, N-terminal truncation mapping, BioID, co-IP and siRNA trafficking assays across multiple golgins

    PMID:28122620 PMID:29084197

    Open questions at the time
    • How TBC1D23 distinguishes correct vesicles at the molecular level not yet shown
    • Physiological cargo of these carriers not enumerated here
  10. 2018 Medium

    Cargo selectivity was sharpened by positive and negative results: golgin-97 directly binds and exports Kir2.1, but is dispensable for retromer-dependent CI-M6PR retrograde transport, which uses GCC88.

    Evidence Golgi-tether screen with in vitro pull-downs and siRNA for Kir2.1; Vps35 knockout with EM golgin-marker tethering for CI-M6PR

    PMID:30123141 PMID:30559172

    Open questions at the time
    • Structural basis of Kir2.1 GRIP-domain binding not determined
    • Full cargo repertoire of golgin-97 vs sibling golgins incomplete
  11. 2018 Medium

    A Golgi-independent signaling role was uncovered: golgin-97 suppresses NF-κB by maintaining IκBα, linking its loss to breast cancer invasion.

    Evidence siRNA knockdown/re-expression, fractionation, luciferase reporter and Western blot in breast cancer cells

    PMID:29703230

    Open questions at the time
    • Molecular mechanism by which golgin-97 stabilizes IκBα unknown
    • Direct binding partners in the NF-κB axis not identified
  12. 2020 Medium

    Structural and stability mechanisms were added: the TBC1D23 rhodanese-TBC platform was shown to form the golgin-binding surface (catalytically inactive), and Arl1 was shown to be continuously required, as its oxidative degradation releases golgin-97 from the membrane.

    Evidence X-ray crystallography with zebrafish neurodevelopment assay; H2O2 treatment with NAC/protease-inhibitor rescue and transport assays

    PMID:32453802 PMID:32583744

    Open questions at the time
    • Whether oxidative regulation of golgin-97 occurs physiologically not established
    • Functional consequence of golgin-97 binding in neurodevelopment via TBC1D23 vs golgin-97 itself not separated
  13. 2022 High

    A post-translational regulatory layer was defined: PKD-activated PARP12 mono-ADP-ribosylates an acidic cluster in golgin-97's coiled-coil, gating carrier fission and E-cadherin/VSVG export.

    Evidence In vitro ADP-ribosylation, acidic-cluster mutagenesis, siRNA, live-cell cargo imaging and co-IP

    PMID:34969853

    Open questions at the time
    • How the modification mechanically drives carrier fission unknown
    • Why golgin-245-dependent cargo is exempt not explained
  14. 2024 High

    Cargo recognition at the carrier level was resolved structurally: TBC1D23's C-terminal domain directly reads an acidic TLY motif on endosome-to-Golgi cargoes, completing the chain from golgin tip to specific cargo.

    Evidence Protein binding assays, X-ray crystallography of TBC1D23-CTD bound to the TLY motif, and structure-guided mutagenesis with in vivo capture assay

    PMID:38552021

    Open questions at the time
    • Generality of the TLY code across the full cargo set not exhaustively mapped
    • How motif recognition is coordinated with WASH-complex binding not resolved

Open questions

Synthesis pass · forward-looking unresolved questions
  • It remains unknown how golgin-97's distinct activities—TGN vesicle tethering, selective basolateral cargo export, and Golgi-independent NF-κB suppression—are integrated and switched within a single cell, and whether the protein has a defined Mendelian disease association.
  • No structural model of full-length dimer engaging Arl1 and a vesicle simultaneously
  • Mechanism of cytosolic golgin-97 pool and its NF-κB function uncharacterized
  • No direct evidence linking GOLGA1 to a human disease in the corpus

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0060090 molecular adaptor activity 3 GO:0005198 structural molecule activity 1 GO:0008289 lipid binding 1
Localization
GO:0005794 Golgi apparatus 3 GO:0005829 cytosol 1
Pathway
R-HSA-5653656 Vesicle-mediated transport 3 R-HSA-9609507 Protein localization 3 R-HSA-162582 Signal Transduction 1
Partners
ARFRP1ARL1KCNJ2PARP12RAB11FIP1TBC1D23

Evidence

Reading pass · 20 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
1999 Golgin-97 contains a conserved C-terminal ~50 amino acid 'GRIP' domain that is sufficient to specify Golgi targeting in mammalian cells when fused to GFP, identifying this domain as the Golgi-targeting determinant of golgin-97. GFP fusion constructs expressed in mammalian cells; fluorescence microscopy Current Biology High 10209120 10209123 10209125
1999 The GRIP domain of golgin-97 preferentially binds to Rab6 on protein blots, and mutations of the conserved tyrosine in the GRIP domain that abolish Golgi targeting also abolish this Rab6 interaction, suggesting Rab6 is a targeting determinant. Protein blot overlay binding assay; site-directed mutagenesis of conserved tyrosine Current Biology Medium 10209123
1999 Site-directed mutagenesis of the GRIP domain of golgin-97 identified two conserved aromatic residues (including a critical tyrosine) essential for Golgi targeting function; overexpressed GRIP domains of p230 and golgin-97 displaced each other from Golgi membranes, indicating they compete for the same membrane determinants. Site-directed mutagenesis; GFP-fusion overexpression and competitive displacement assay Current Biology High 10209120 10209125
2005 Arl1 (Arf-like GTPase) mediates TGN recruitment of golgin-97 by interacting directly with its GRIP domain; overexpression of GCC185 does not colocalize with golgin-97 GRIP-domain binding structures, and GCC185 and GCC88 GRIP domains do not interact with Arl1 in vivo, distinguishing golgin-97 as an Arl1-dependent TGN golgin. Co-immunoprecipitation; in vivo GRIP domain overexpression; immunofluorescence colocalization Journal of Cell Science High 15522892
2005 ARFRP1 (ADP-ribosylation factor-related protein 1) is an essential upstream regulator for targeting of Arl1 and subsequently golgin-97 (and golgin-245) onto Golgi membranes; in concert, ARFRP1/Arl1/golgin-97 regulate Golgi-to-plasma membrane transport of VSV-G and retrograde transport of TGN38 and Shiga toxin. RNA interference knockdown; immunofluorescence; vesicular stomatitis virus G protein transport assay; Shiga toxin retrograde transport assay Journal of Cell Science Medium 16129887
2005 Golgin-97 forms homodimers exclusively (not heterodimers with other GRIP domain proteins p230, GCC88, or GCC185), forming parallel coiled-coil dimers; purified recombinant golgin-97 is 67% alpha-helical by CD spectroscopy, consistent with an extended rod-like homodimeric structure. Co-immunoprecipitation of epitope-tagged proteins; chemical cross-linking; yeast two-hybrid; CD spectroscopy of purified recombinant protein Biochemical Journal High 15654769
2005 Golgin-97 selectively associates with TGN-derived tubulovesicular carriers containing E-cadherin; siRNA knockdown of golgin-97 inhibits E-cadherin trafficking from the TGN, identifying golgin-97 as an essential and selective component for E-cadherin export from the TGN. Live-cell fluorescence microscopy with GFP-tagged GRIP domains; siRNA knockdown; co-localization of GRIP domain with E-cadherin-GFP in tubular carriers Traffic High 16262725
2006 Three-tier hierarchical interactions govern Golgi targeting of golgin-97 GRIP domain: (1) GRIP domain self-dimerization is required for (2) bivalent interaction with Arl1-GTP, and (3) a third group of residues including positively charged arginine between α1 and α2 helices and hydrophobic residues C-terminal to the GRIP domain (e.g. W744) mediate direct membrane lipid interaction, as shown by surface plasmon resonance. Mutational analysis of >30 GRIP domain mutants; surface plasmon resonance for lipid binding; in vivo targeting assays Traffic High 16899086
2010 FIP1/RCP (a Rab11 effector) directly binds to golgin-97, with the binding domain mapping to the C-terminus of golgin-97 adjacent to its GRIP domain. This interaction does not affect golgin-97 TGN recruitment but is required for tethering/fusion of recycling endosome-derived retrograde transport vesicles to the TGN, as assayed by TGN38 and Shiga toxin retrograde trafficking. Proteomic identification by mass spectrometry; co-immunoprecipitation; fluorescence and electron microscopy; functional retrograde transport assays (TGN38, STxB) Molecular Biology of the Cell Medium 20610657
2017 A short N-terminal 20–50 residue region of golgin-97 is necessary and sufficient to capture endosome-to-Golgi transport carriers when relocated to an ectopic location. Golgin-97 and golgin-245 share a closely related N-terminal capture motif distinct from that of GCC88, indicating they capture a specific class of endosome-derived carriers. Ectopic golgin relocation assay; systematic N-terminal truncation and motif mapping; vesicle accumulation quantification BMC Biology High 28122620
2017 TBC1D23 acts as a bridging adaptor between golgin-97 (and golgin-245) and endosome-derived vesicles: its Rab GAP domain binds to a conserved motif at the tip (N-terminus) of golgin-97 and golgin-245 at the trans-Golgi, while its C-terminus binds to the WASH complex on endosomal vesicles, thereby conferring specificity to endosome-to-Golgi trafficking. Proximity biotinylation (BioID) of golgin-captured vesicles; co-immunoprecipitation; siRNA knockdown with trafficking assay; ectopic golgin relocation system Nature Cell Biology High 29084197
2020 Crystal structure of TBC1D23 N-terminus reveals the rhodanese domain packs against the TBC domain and together they form the platform that interacts with golgin-97 and golgin-245; the rhodanese domain is structurally inactive as a sulfurtransferase/phosphatase, and disrupting golgin-97/245-binding (but not the putative catalytic site) impairs neuronal growth and brain development in zebrafish. X-ray crystallography; zebrafish in vivo model; structure-guided mutagenesis PLoS Biology High 32453802
2020 Hydrogen peroxide treatment causes degradation of Arl1 and consequent dissociation of golgin-97 (and golgin-245) from the trans-Golgi, with loss of trans-Golgi cisternae and inhibition of both anterograde and retrograde protein transport, identifying Arl1 as essential for golgin-97 membrane retention. Immunofluorescence; Western blotting; pharmacological H2O2 treatment; rescue with ROS scavenger N-acetyl cysteine and protease inhibitors; protein transport assays Molecular Biology of the Cell Medium 32583744
2022 PARP12 mono-ADP-ribosylates golgin-97 at an acidic cluster in its coiled-coil domain; this modification is required for E-cadherin and VSVG (but not TNFα/golgin-245-dependent cargo) export from TGN to plasma membrane. PARP12 depletion or mutation of the acidic cluster causes defective carrier fission and cargo accumulation in a trans-Golgi/Rab11-positive intermediate. PARP12's catalytic activity is activated by PKD-mediated direct phosphorylation of PARP12. In vitro ADP-ribosylation assay; site-directed mutagenesis of acidic cluster; siRNA knockdown; live-cell imaging of cargo trafficking; co-immunoprecipitation Proceedings of the National Academy of Sciences High 34969853
2018 Golgin-97 knockdown in breast cancer cells activates NF-κB by reducing IκBα protein levels, promoting invasion-related gene expression; re-expression of golgin-97 restores IκBα and suppresses NF-κB activity. Both TGN-bound and cytosolic forms of golgin-97 inhibit NF-κB, and this function is independent of general Golgi integrity. siRNA knockdown; golgin-97 re-expression; subcellular fractionation; luciferase reporter assay; Western blotting; immunofluorescence Cell Communication and Signaling Medium 29703230
2024 TBC1D23 (bound to golgin-97 via its N-terminal domain) captures endosome-to-Golgi vesicles by directly recognizing a threonine-leucine-tyrosine (TLY) acidic-cluster motif present in cargo proteins (carboxypeptidase D, syntaxin-16, and other endosome-to-Golgi cargos) carried within those vesicles; a crystal structure of TBC1D23 C-terminal domain bound to the acidic TLY motif was determined, and structure-guided mutations that disrupt motif binding in vitro also block vesicle capture in vivo. Protein binding assays; X-ray crystallography; structure-guided mutagenesis; in vivo vesicle capture assay Science Advances High 38552021
2006 During poxvirus infection, golgin-97 is transported from the TGN to viral replication/assembly sites (viral factories) and incorporated into mature virions, where it associates with the insoluble core protein fraction; siRNA depletion of golgin-97 blocks formation of mature virus (first infectious form) but not its precursor immature virus, demonstrating a role in viral morphogenesis/core maturation. Immunofluorescence; Western blotting of virion fractions; RNA interference knockdown; electron microscopy of virion morphology Journal of Virology / Virology Medium 16987983 17276477
2018 Golgin-97 directly binds the cytoplasmic domain of the inward rectifying potassium channel Kir2.1 via its GRIP domain (shown by in vitro protein interaction); siRNA knockdown of golgin-97 prevents exit of Kir2.1 from the Golgi, identifying golgin-97 as required for targeting Kir2.1 to the TGN and its subsequent AP-1-dependent export. Systematic screen of Golgi tethers; in vitro protein-interaction pull-down assay; RNA interference knockdown; fluorescence imaging Frontiers in Physiology Medium 30123141
2018 Retromer-dependent retrograde trafficking of CI-M6PR uses transport carriers tethered specifically by GCC88, not by golgin-97 or golgin-245, demonstrating that golgin-97 is not required for CI-M6PR retrograde transport. Vps35 knockout; electron microscopy; vesicle tethering assay with specific golgin markers Journal of Cell Biology Medium 30559172
2003 Overexpression of isolated GRIP domain fragments of golgin-97 (or tGolgin-1) alters TGN organization, inhibits vesicular transport from TGN to plasma membrane, inhibits furin-dependent substrate cleavage, and causes mislocalization of TGN46 to multivesicular late endosomes; a conserved GRIP domain tyrosine mutation abolishes these effects. Semi-quantitative immunofluorescence; GRIP domain overexpression; electron microscopy; vesicular transport assay; mutagenesis Journal of Cell Science Medium 13130094

Source papers

Stage 0 corpus · 63 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
1999 The GRIP domain - a novel Golgi-targeting domain found in several coiled-coil proteins. Current biology : CB 159 10209120
1997 Molecular cloning of a novel 97-kd Golgi complex autoantigen associated with Sjögren's syndrome. Arthritis and rheumatism 147 9324025
1999 A novel Rab6-interacting domain defines a family of Golgi-targeted coiled-coil proteins. Current biology : CB 136 10209123
1999 A novel Golgi-localisation domain shared by a class of coiled-coil peripheral membrane proteins. Current biology : CB 130 10209125
2007 The trans-Golgi network golgin, GCC185, is required for endosome-to-Golgi transport and maintenance of Golgi structure. Traffic (Copenhagen, Denmark) 121 17488291
2018 Retromer has a selective function in cargo sorting via endosome transport carriers. The Journal of cell biology 115 30559172
2000 Vesicular traffic and golgi apparatus dynamics during mammalian spermatogenesis: implications for acrosome architecture. Biology of reproduction 112 10859246
2005 E-cadherin transport from the trans-Golgi network in tubulovesicular carriers is selectively regulated by golgin-97. Traffic (Copenhagen, Denmark) 104 16262725
2007 The golgin GCC88 is required for efficient retrograde transport of cargo from the early endosomes to the trans-Golgi network. Molecular biology of the cell 77 17914056
2017 TBC1D23 is a bridging factor for endosomal vesicle capture by golgins at the trans-Golgi. Nature cell biology 76 29084197
2007 Identification of novel universal housekeeping genes by statistical analysis of microarray data. Journal of biochemistry and molecular biology 74 17394773
2019 Axonal autophagosome maturation defect through failure of ATG9A sorting underpins pathology in AP-4 deficiency syndrome. Autophagy 69 31142229
2004 Autoantibodies to protein transport and messenger RNA processing pathways: endosomes, lysosomes, Golgi complex, proteasomes, assemblyosomes, exosomes, and GW bodies. Clinical immunology (Orlando, Fla.) 65 14962794
2004 Mammalian GRIP domain proteins differ in their membrane binding properties and are recruited to distinct domains of the TGN. Journal of cell science 65 15522892
2017 The golgin coiled-coil proteins capture different types of transport carriers via distinct N-terminal motifs. BMC biology 64 28122620
2005 The BTB-kelch protein LZTR-1 is a novel Golgi protein that is degraded upon induction of apoptosis. The Journal of biological chemistry 63 16356934
2021 Heme oxygenase-1(HO-1) regulates Golgi stress and attenuates endotoxin-induced acute lung injury through hypoxia inducible factor-1α (HIF-1α)/HO-1 signaling pathway. Free radical biology & medicine 61 33493554
2005 Roles of ARFRP1 (ADP-ribosylation factor-related protein 1) in post-Golgi membrane trafficking. Journal of cell science 60 16129887
2013 Trafficking of the Menkes copper transporter ATP7A is regulated by clathrin-, AP-2-, AP-1-, and Rab22-dependent steps. Molecular biology of the cell 52 23596324
2004 Dynamics of Golgi matrix proteins after the blockage of ER to Golgi transport. Journal of biochemistry 47 15047722
2008 Control of cytoplasmic maturation events by cytomegalovirus tegument protein pp150. Journal of virology 45 18653449
2006 Assembly of spermatid acrosome depends on microtubule organization during mammalian spermiogenesis. Developmental biology 45 16540102
2011 Arfaptins are localized to the trans-Golgi by interaction with Arl1, but not Arfs. The Journal of biological chemistry 44 21239483
2008 Regulation of HLA class I surface expression requires CD99 and p230/golgin-245 interaction. Blood 42 18849489
2003 A role for GRIP domain proteins and/or their ligands in structure and function of the trans Golgi network. Journal of cell science 42 13130094
2005 The caveolae-mediated sv40 entry pathway bypasses the golgi complex en route to the endoplasmic reticulum. Virology journal 41 15840166
2010 FIP1/RCP binding to Golgin-97 regulates retrograde transport from recycling endosomes to the trans-Golgi network. Molecular biology of the cell 38 20610657
2009 The localization of the Golgin GCC185 is independent of Rab6A/A' and Arl1. Cell 38 19703403
2011 Molecular basis of insulin-responsive GLUT4 trafficking systems revealed by single molecule imaging. Traffic (Copenhagen, Denmark) 35 21910807
2003 Giantin is the major Golgi autoantigen in human anti-Golgi complex sera. Arthritis research & therapy 33 15059272
2003 HDL-mediated cholesterol uptake and targeting to lipid droplets in adipocytes. Journal of lipid research 31 12867544
2000 Infection of human endothelial cells with Bartonella bacilliformis is dependent on Rho and results in activation of Rho. Infection and immunity 30 10992508
2022 PKD-dependent PARP12-catalyzed mono-ADP-ribosylation of Golgin-97 is required for E-cadherin transport from Golgi to plasma membrane. Proceedings of the National Academy of Sciences of the United States of America 29 34969853
2005 The trans-Golgi network GRIP-domain proteins form alpha-helical homodimers. The Biochemical journal 29 15654769
2006 Multilayer interactions determine the Golgi localization of GRIP golgins. Traffic (Copenhagen, Denmark) 25 16899086
2018 Golgi tethering factor golgin-97 suppresses breast cancer cell invasiveness by modulating NF-κB activity. Cell communication and signaling : CCS 24 29703230
2022 Acat1/Soat1 knockout extends the mutant Npc1 mouse lifespan and ameliorates functional deficiencies in multiple organelles of mutant cells. Proceedings of the National Academy of Sciences of the United States of America 22 35507892
2020 Hydrogen peroxide induces Arl1 degradation and impairs Golgi-mediated trafficking. Molecular biology of the cell 20 32583744
2006 A trans-Golgi network resident protein, golgin-97, accumulates in viral factories and incorporates into virions during poxvirus infection. Journal of virology 20 16987983
2002 Possible implication of Golgi-nucleating function for the centrosome. Biochemical and biophysical research communications 19 11855815
2020 Structure of TBC1D23 N-terminus reveals a novel role for rhodanese domain. PLoS biology 18 32453802
2012 Involvement of diacylglycerol kinase γ in modulation of iNOS synthesis in Golgi apparatus of vascular endothelial cells. Naunyn-Schmiedeberg's archives of pharmacology 18 22627682
2005 N-substituted 4-aminobenzamides (procainamide analogs): an assessment of multiple cellular effects concerning ion trapping. Molecular pharmacology 18 16183854
2020 Knockout of serine-rich single-pass membrane protein 1 (Ssmem1) causes globozoospermia and sterility in male mice†. Biology of reproduction 16 32301969
2005 Functional analysis of Arl1 and golgin-97 in endosome-to-TGN transport using recombinant Shiga toxin B fragment. Methods in enzymology 16 16413290
2024 Cargo selective vesicle tethering: The structural basis for binding of specific cargo proteins by the Golgi tether component TBC1D23. Science advances 15 38552021
2006 centrosomin's beautiful sister (cbs) encodes a GRIP-domain protein that marks Golgi inheritance and functions in the centrosome cycle in Drosophila. Journal of cell science 15 16882688
2018 Golgin-97 Targets Ectopically Expressed Inward Rectifying Potassium Channel, Kir2.1, to the trans-Golgi Network in COS-7 Cells. Frontiers in physiology 13 30123141
2014 Enhanced myometrial autophagy in postpartum uterine involution. Taiwanese journal of obstetrics & gynecology 12 25286780
2007 A specific inhibitor of cholesterol biosynthesis, BM15.766, reduces the expression of beta-secretase and the production of amyloid-beta in vitro. Journal of neurochemistry 11 17472704
2023 Streptococcus pneumoniae disrupts the structure of the golgi apparatus and subsequent epithelial cytokine response in an H2O2-dependent manner. Cell communication and signaling : CCS 10 37592354
2007 A host cell membrane protein, golgin-97, is essential for poxvirus morphogenesis. Virology 10 17276477
2005 Interaction of Arl1 GTPase with the GRIP domain of Golgin-245 as assessed by GST (glutathione-S-transferase) pull-down experiments. Methods in enzymology 10 16413289
2024 Flotillins affect LPS-induced TLR4 signaling by modulating the trafficking and abundance of CD14. Cellular and molecular life sciences : CMLS 9 38652315
2015 Arfaptin-1 negatively regulates Arl1-mediated retrograde transport. PloS one 8 25789876
2025 Targeting the ERK1/2 and p38 MAPK pathways attenuates Golgi tethering factor golgin-97 depletion-induced cancer progression in breast cancer. Cell communication and signaling : CCS 7 39800687
2023 Golgi Apparatus Target Proteins in Gastroenterological Cancers: A Comprehensive Review of GOLPH3 and GOLGA Proteins. Cells 7 37508488
2021 Cellular Expression and Subcellular Localization of Wwox Protein During Testicular Development and Spermatogenesis in Rats. The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society 7 33565365
2010 The ADP-ribosylation factor 1 (Arf1) is involved in regulating copper uptake. The international journal of biochemistry & cell biology 7 21034850
2013 Intracellular distribution of the ΔNp73 protein isoform in medulloblastoma cells: a study with newly generated rabbit polyclonal antibodies. Histology and histopathology 6 23338942
2019 Role of tbc1 in Drosophila embryonic salivary glands. BMC molecular and cell biology 4 31242864
2016 High-Content Analysis of the Golgi Complex by Correlative Screening Microscopy. Methods in molecular biology (Clifton, N.J.) 3 27632005
2025 Effects of a homozygous missense mutation in the GNE gene p.V543M on cell phenotype and its mechanisms. Zhong nan da xue xue bao. Yi xue ban = Journal of Central South University. Medical sciences 0 40457796

Missed literature

Know a paper Affinage missed for GOLGA1? Flag it for the maintainers and the community.

No submissions yet.