SANTA CRUZ BIOTECHNOLOGY search Santa Cruz Biotechnology LAMP1 products
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| ic | | Santa Cruz Biotechnology mouse monoclonal anti-Lamp-1 antibody (sc-18821) was used in immunocytochemistry to study the loss of sphingosine kinase-1 by tumor necrosis factor. |
| ic | | Santa Cruz Biotechnology goat anti-LAMP-1 polyclonal antibody was used in immunocytochemistry to study the parkin accumulation in aggresomes due to proteasome impairment. |
| ic | | Santa Cruz anti-LAMP-1 antibody was used in immunocytochemistry to study DISC1 localization. |
| wb | | Santa Cruz Biotechnology rabbit polyclonal antibody against lysosome-associated membrane glycoprotein (LAMP-1) (H-228) was used in western blot to study the role played by adaptor protein ARH to modulate endocytosis of the LDL/LDL receptor complex in hepatocytes when recruited to the plasma membranea by low density lipoprotein (LDL) binding. |
DEVELOPMENTAL STUDIES HYBRIDOMA BANK search Developmental Studies Hybridoma Bank LAMP1 products
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| ic | | Developmental Studies Hybridoma Bank mouse anti-lysosome-associated membrane protein-1 (LAMP1) antibody (clone H4A3) was used in immunocytochemistry to provide evidence for distinct functions of sorting nexin 1 and 2 in protein trafficking by investigating the role for sorting nexin 2 in epidermal growth factor receptor down-regulation. |
| ic | | Developmental Studies Hybridoma Bank mouse monoclonal anti-LAMP1 antibody (H4A3) was used in human HeLa cells and in immunocytochemistry to study the relationship of degradation of endocytosed epidermal growth factor and virally ubiquitinated major histocompatibility complex class I with mammalian ESCRTII. |
| ic | | Developmental Studies Hybridoma Bank monoclonal anti-lamp1 antibody was used in immunocytochemistry to study MnSOD expression in human and sheep CLN6 tissues. |
| ih, wb | | Developmental Studies Hybridoma Bank monoclonal mouse anti-LAMP-1 antibody 1D4B was used in western blot and immunohistochemistry to study LIMP-2-deficient mice. |
| ih | | Hybridoma Bank monoclonal antibody against LAMP I was used in immunohistochemistry to study the expression, localization, structural, and functional characterization of the paralog of the Calpha-formylglycine-generating enzyme designated pFGE. |
BD BIOSCIENCES search BD Biosciences LAMP1 products
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| ic | | Pharmingen monoclonal anti-Lamp 1 antibody was used in immunocytochemistry to study the trafficking of cystic fibrosis transmembrane conductance regulator (CFTR). |
| ic | | BD Transduction Laboratories monoclonal antibody to human Lamp-1 (CD107a) was used in immunocytochemistry to study the localization of sorting nexin 5 in non-stimulated and EGF stimulated cells. |
| ic | | BD Transduction Laboratories anti-LAMP-1 antibody was used in immunocytochemistry to study that N4WBP5A (Ndfip2), a Nedd4-interacting protein, localizes to multivesicular bodies and the Golgi, and has a potential role in protein trafficking. |
| ic | | Becton Dickinson Transduction Laboratories mouse monoclonal anti-LAMP1 antibody was used in immunocytochemistry to study the amphiphysin 2/SNX4 partnership important for the control of the endosome fate, after the formation of the endocytic vesicle. |
| ic | | BD Transduction Laboratories antibody to Lamp1 was used in immunocytochemistry to study the role of the deubiquitylating enzyme FAM in the trafficking of beta-catenin and E-cadherin in epithelia. |
| wb | | BD Transduction Laboratories monoclonal anti-LAMP-1 antibody was used in human tTA-HeLa cells and in western blot to study the effect of rab7 activity on epidermal growth factor. |
STRESSGEN search Stressgen LAMP1 products
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| ic, wb | | Stressgen Biotechnologies anti-lysosome-associated membrane protein (Lamp-1) antibody was used in immunocytochemistry to study the expression and localization of murine- and human-specific RPGRIP1 splice variants. |
Articles Reviewed |
| 1. Eunsung Junn et al. Parkin accumulation in aggresomes due to proteasome impairment. 2002 |
| 2. Alexander-Christian Gamp et al. LIMP-2/LGP85 deficiency causes ureteric pelvic junction obstruction, deafness and peripheral neuropathy in mice. 2003 |
| 3. Corinne Leprince et al. Sorting nexin 4 and amphiphysin 2, a new partnership between endocytosis and intracellular trafficking. 2003 |
| 4. Jill A Morris et al. DISC1 (Disrupted-In-Schizophrenia 1) is a centrosome-associated protein that interacts with MAP1A, MIPT3, ATF4/5 and NUDEL: regulation and loss of interaction with mutation. 2003 |
| 5. Claudia Heine et al. Enhanced expression of manganese-dependent superoxide dismutase in human and sheep CLN6 tissues. 2003 |
| 6. Rachael Z Murray et al. The FAM deubiquitylating enzyme localizes to multiple points of protein trafficking in epithelia, where it associates with E-cadherin and beta-catenin. 2004 |
| 7. Anuradha Gullapalli et al. A role for sorting nexin 2 in epidermal growth factor receptor down-regulation: evidence for distinct functions of sorting nexin 1 and 2 in protein trafficking. 2004 |
| 8. Frédéric Bilan et al. Syntaxin 8 impairs trafficking of cystic fibrosis transmembrane conductance regulator (CFTR) and inhibits its channel activity. 2004 |
| 9. Linda M Shearwin-Whyatt et al. N4WBP5A (Ndfip2), a Nedd4-interacting protein, localizes to multivesicular bodies and the Golgi, and has a potential role in protein trafficking. 2004 |
| 10. Ana Merino-Trigo et al. Sorting nexin 5 is localized to a subdomain of the early endosomes and is recruited to the plasma membrane following EGF stimulation. 2004 |
| 11. Malaiyalam Mariappan et al. Expression, localization, structural, and functional characterization of pFGE, the paralog of the Calpha-formylglycine-generating enzyme. 2005 |
| 12. Tarek A Taha et al. Tumor necrosis factor induces the loss of sphingosine kinase-1 by a cathepsin B-dependent mechanism. 2005 |
| 13. Xinrong Lu et al. Identification of novel murine- and human-specific RPGRIP1 splice variants with distinct expression profiles and subcellular localization. 2005 |
| 14. Maria Isabella Sirinian et al. Adaptor protein ARH is recruited to the plasma membrane by low density lipoprotein (LDL) binding and modulates endocytosis of the LDL/LDL receptor complex in hepatocytes. 2005 |
| 15. Brian P Ceresa et al. rab7 activity affects epidermal growth factor:epidermal growth factor receptor degradation by regulating endocytic trafficking from the late endosome. 2006 |
| 16. Katherine Bowers et al. Degradation of endocytosed epidermal growth factor and virally ubiquitinated major histocompatibility complex class I is independent of mammalian ESCRTII. 2006 |