LYVE1 Monoclonal Antibody (ALY7), Alexa Fluor 488, eBioscience™ | Invitrogen 53-0443-80 product information

product summary

company name :

Invitrogen

other brands :

NeoMarkers, Lab Vision, Endogen, Pierce, BioSource International, Zymed Laboratories, Caltag, Molecular Probes, Research Genetics, Life Technologies, Applied Biosystems, GIBCO BRL, ABgene, Dynal, Affinity BioReagents, Nunc, Invitrogen, NatuTec, Oxoid, Richard-Allan Scientific, Arcturus, Perseptive Biosystems, Proxeon, eBioscience

product type :

antibody

product name :

LYVE1 Monoclonal Antibody (ALY7), Alexa Fluor 488, eBioscience™

catalog :

53-0443-80

quantity :

25 µg

price :

US 309.00

clonality :

monoclonal

host :

rat

conjugate :

AF488

clone name :

ALY7

reactivity :

mouse

application :

immunohistochemistry, immunocytochemistry, flow cytometry, immunohistochemistry - paraffin section, immunohistochemistry - frozen section

more info or order :

Invitrogen product webpage

citations: 40

Published Application/Species/Sample/Dilution	Reference
immunohistochemistry - paraffin section; mouse; 1:200; loading ...; fig s9c	Grüneboom A, Hawwari I, Weidner D, Culemann S, Müller S, Henneberg S, et al. A network of trans-cortical capillaries as mainstay for blood circulation in long bones. Nat Metab. 2019;1:236-250 pubmed publisher
immunohistochemistry - frozen section; mouse; loading ...; fig 2a	Meyers J, Winans B, Kelsaw E, Murthy A, Gerber S, Lawrence B. Environmental cues received during development shape dendritic cell responses later in life. PLoS ONE. 2018;13:e0207007 pubmed publisher
flow cytometry; mouse; fig 6c	Jordan Williams K, Ramanujam N, Farr A, Ruddell A. The Lymphatic Endothelial mCLCA1 Antibody Induces Proliferation and Growth of Lymph Node Lymphatic Sinuses. PLoS ONE. 2016;11:e0156079 pubmed publisher
	Hu X, Deng Q, Ma L, Li Q, Chen Y, Liao Y, et al. Meningeal lymphatic vessels regulate brain tumor drainage and immunity. Cell Res. 2020;30:229-243 pubmed publisher
	Yoo H, Lee Y, Park C, Son D, Choi D, Park J, et al. Epigenetic priming by Dot1l in lymphatic endothelial progenitors ensures normal lymphatic development and function. Cell Death Dis. 2020;11:14 pubmed publisher
	Glinskii O, Huxley V, Xie L, Bunyak F, Palaniappan K, Glinsky V. Complex Non-sinus-associated Pachymeningeal Lymphatic Structures: Interrelationship With Blood Microvasculature. Front Physiol. 2019;10:1364 pubmed publisher
	Camara A, Cordeiro O, Alloush F, Sponsel J, Chypre M, Onder L, et al. Lymph Node Mesenchymal and Endothelial Stromal Cells Cooperate via the RANK-RANKL Cytokine Axis to Shape the Sinusoidal Macrophage Niche. Immunity. 2019;50:1467-1481.e6 pubmed publisher
	Schlereth K, Weichenhan D, Bauer T, Heumann T, Giannakouri E, Lipka D, et al. The transcriptomic and epigenetic map of vascular quiescence in the continuous lung endothelium. elife. 2018;7: pubmed publisher
	Logan C, Bowen C, Menko A. Induction of Immune Surveillance of the Dysmorphogenic Lens. Sci Rep. 2017;7:16235 pubmed publisher
	Thiriot A, Perdomo C, Cheng G, Novitzky Basso I, McArdle S, Kishimoto J, et al. Differential DARC/ACKR1 expression distinguishes venular from non-venular endothelial cells in murine tissues. BMC Biol. 2017;15:45 pubmed publisher
	Chucair Elliott A, Carr M, Carr D. Long-term consequences of topical dexamethasone treatment during acute corneal HSV-1 infection on the immune system. J Leukoc Biol. 2017;101:1253-1261 pubmed publisher
	Wang W, Wang H, Zhou X, Li X, Sun W, Dellinger M, et al. Lymphatic Endothelial Cells Produce M-CSF, Causing Massive Bone Loss in Mice. J Bone Miner Res. 2017;32:939-950 pubmed publisher
	Munger S, Davis M, Simon A. Defective lymphatic valve development and chylothorax in mice with a lymphatic-specific deletion of Connexin43. Dev Biol. 2017;421:204-218 pubmed publisher
	Gardenier J, Hespe G, Kataru R, Savetsky I, Torrisi J, Nores G, et al. Diphtheria toxin-mediated ablation of lymphatic endothelial cells results in progressive lymphedema. JCI Insight. 2016;1:e84095 pubmed publisher
	Brinkman C, Iwami D, Hritzo M, Xiong Y, Ahmad S, Simon T, et al. Treg engage lymphotoxin beta receptor for afferent lymphatic transendothelial migration. Nat Commun. 2016;7:12021 pubmed publisher
	Cordeiro O, Chypre M, Brouard N, Rauber S, Alloush F, Romera Hernandez M, et al. Integrin-Alpha IIb Identifies Murine Lymph Node Lymphatic Endothelial Cells Responsive to RANKL. PLoS ONE. 2016;11:e0151848 pubmed publisher
	Liang Q, Ju Y, Chen Y, Wang W, Li J, Zhang L, et al. Lymphatic endothelial cells efferent to inflamed joints produce iNOS and inhibit lymphatic vessel contraction and drainage in TNF-induced arthritis in mice. Arthritis Res Ther. 2016;18:62 pubmed publisher
	Munger S, Geng X, Srinivasan R, Witte M, Paul D, Simon A. Segregated Foxc2, NFATc1 and Connexin expression at normal developing venous valves, and Connexin-specific differences in the valve phenotypes of Cx37, Cx43, and Cx47 knockout mice. Dev Biol. 2016;412:173-90 pubmed publisher
	Louveau A, Smirnov I, Keyes T, Eccles J, Rouhani S, Peske J, et al. Structural and functional features of central nervous system lymphatic vessels. Nature. 2015;523:337-41 pubmed publisher
	Baptista A, Roozendaal R, Reijmers R, Koning J, Unger W, Greuter M, et al. Lymph node stromal cells constrain immunity via MHC class II self-antigen presentation. elife. 2014;3: pubmed publisher
	Zhao W, Zhang L, Xu Y, Zhang Z, Ren G, Tang K, et al. Hepatic stellate cells promote tumor progression by enhancement of immunosuppressive cells in an orthotopic liver tumor mouse model. Lab Invest. 2014;94:182-91 pubmed publisher
	Cogger V, Svistounov D, Warren A, Zykova S, Melvin R, Solon Biet S, et al. Liver aging and pseudocapillarization in a Werner syndrome mouse model. J Gerontol A Biol Sci Med Sci. 2014;69:1076-86 pubmed publisher
	Salnikova O, Breuhahn K, Hartmann N, Schmidt J, Ryschich E. Endothelial plasticity governs the site-specific leukocyte recruitment in hepatocellular cancer. Int J Cancer. 2013;133:2372-82 pubmed publisher
	Miller C, Hartigan O Connor D, Lee M, Laidlaw G, Cornelissen I, Matloubian M, et al. IL-7 production in murine lymphatic endothelial cells and induction in the setting of peripheral lymphopenia. Int Immunol. 2013;25:471-83 pubmed publisher
	Corbitt N, Kimura S, Isse K, Specht S, Chedwick L, Rosborough B, et al. Gut bacteria drive Kupffer cell expansion via MAMP-mediated ICAM-1 induction on sinusoidal endothelium and influence preservation-reperfusion injury after orthotopic liver transplantation. Am J Pathol. 2013;182:180-91 pubmed publisher
	Baptista A, Olivier B, Goverse G, Greuter M, Knippenberg M, Kusser K, et al. Colonic patch and colonic SILT development are independent and differentially regulated events. Mucosal Immunol. 2013;6:511-21 pubmed publisher
	Joo H, Choi D, Lim J, Park J, Lee S, Song S, et al. ROCK suppression promotes differentiation and expansion of endothelial cells from embryonic stem cell-derived Flk1(+) mesodermal precursor cells. Blood. 2012;120:2733-44 pubmed
	Nakayama Y, Bromberg J. Lymphotoxin-beta receptor blockade induces inflammation and fibrosis in tolerized cardiac allografts. Am J Transplant. 2012;12:2322-34 pubmed publisher
	Malhotra D, Fletcher A, Astarita J, Lukacs Kornek V, Tayalia P, Gonzalez S, et al. Transcriptional profiling of stroma from inflamed and resting lymph nodes defines immunological hallmarks. Nat Immunol. 2012;13:499-510 pubmed publisher
	Yin N, Zhang N, Lal G, Xu J, Yan M, Ding Y, et al. Lymphangiogenesis is required for pancreatic islet inflammation and diabetes. PLoS ONE. 2011;6:e28023 pubmed publisher
	Vigl B, Aebischer D, Nitschké M, Iolyeva M, Röthlin T, Antsiferova O, et al. Tissue inflammation modulates gene expression of lymphatic endothelial cells and dendritic cell migration in a stimulus-dependent manner. Blood. 2011;118:205-15 pubmed publisher
	Kanady J, Dellinger M, Munger S, Witte M, Simon A. Connexin37 and Connexin43 deficiencies in mice disrupt lymphatic valve development and result in lymphatic disorders including lymphedema and chylothorax. Dev Biol. 2011;354:253-66 pubmed publisher
	Furuya M, Kirschbaum S, Paulovich A, Pauli B, Zhang H, Alexander J, et al. Lymphatic endothelial murine chloride channel calcium-activated 1 is a ligand for leukocyte LFA-1 and Mac-1. J Immunol. 2010;185:5769-77 pubmed publisher
	Harada K, Yamazaki T, Iwata C, Yoshimatsu Y, Sase H, Mishima K, et al. Identification of targets of Prox1 during in vitro vascular differentiation from embryonic stem cells: functional roles of HoxD8 in lymphangiogenesis. J Cell Sci. 2009;122:3923-30 pubmed publisher
	Zumsteg A, Baeriswyl V, Imaizumi N, Schwendener R, Ruegg C, Christofori G. Myeloid cells contribute to tumor lymphangiogenesis. PLoS ONE. 2009;4:e7067 pubmed publisher
	Jiang S, Bailey A, Goldman D, Swain J, Wong M, Streeter P, et al. Hematopoietic stem cells contribute to lymphatic endothelium. PLoS ONE. 2008;3:e3812 pubmed publisher
	Hirashima M, Sano K, Morisada T, Murakami K, Rossant J, Suda T. Lymphatic vessel assembly is impaired in Aspp1-deficient mouse embryos. Dev Biol. 2008;316:149-59 pubmed publisher
	Mishima K, Watabe T, Saito A, Yoshimatsu Y, Imaizumi N, Masui S, et al. Prox1 induces lymphatic endothelial differentiation via integrin alpha9 and other signaling cascades. Mol Biol Cell. 2007;18:1421-9 pubmed
	Hamaguchi I, Morisada T, Azuma M, Murakami K, Kuramitsu M, Mizukami T, et al. Loss of Tie2 receptor compromises embryonic stem cell-derived endothelial but not hematopoietic cell survival. Blood. 2006;107:1207-13 pubmed
	Morisada T, Oike Y, Yamada Y, Urano T, Akao M, Kubota Y, et al. Angiopoietin-1 promotes LYVE-1-positive lymphatic vessel formation. Blood. 2005;105:4649-56 pubmed

product information

Product Type :

Antibody

Product Name :

LYVE1 Monoclonal Antibody (ALY7), Alexa Fluor 488, eBioscience™

Catalog # :

53-0443-80

Quantity :

25 µg

Price :

US 309.00

Clonality :

Monoclonal

Purity :

Affinity chromatography

Host :

Rat

Reactivity :

Mouse

Applications :

Flow Cytometry: Assay-Dependent, Immunocytochemistry: Assay-Dependent, Immunohistochemistry (Frozen): Assay-Dependent

Species :

Mouse

Clone :

ALY7

Isotype :

IgG1, kappa

Storage :

4° C, store in dark, DO NOT FREEZE!

Description :

LYVE1 has been identified as a major receptor for HA (extracellular matrix glycosaminoglycan hyaluronan) on the lymph vessel wall. The deduced amino acid sequence of LYVE1 predicts a 322-residue type I integral membrane polypeptide 41% similar to the CD44 HA receptor with a 212-residue extracellular domain containing a single Link module, the prototypic HA binding domain of the Link protein superfamily. Like CD44, the LYVE1 molecule binds both soluble and immobilized HA. However, unlike CD44, the LYVE1 molecule colocalizes with HA on the luminal face of the lymph vessel wall and is completely absent from blood vessels. Hence, LYVE1 is the first lymph-specific HA receptor to be characterized and is a uniquely powerful marker for lymph vessels themselves. LYVE1 is a type I integral membrane glycoprotein. LYVE-1 is expressed primarily on lymphatic vessel endothelium and is likely to be involved in regulating the traffic of leucocytes and tumor cells to lymph nodes. The lymphatic vasculature forms a second circulatory system that drains extracellular fluid from the tissues and provides an exclusive environment in which immune cells can encounter and respond to foreign antigen. A number of molecules have been identified as markers for lymphatic endothelium which include LYVE1, PALE, VEGFR3, and podoplanin. Diseases associated with LYVE1 dysfunction includes Complete Androgen Insensitivity Syndrome.

Format :

Liquid

Applications w/Dilutions :

Flow Cytometry: Assay-Dependent, Immunocytochemistry: Assay-Dependent, Immunohistochemistry (Frozen): Assay-Dependent

Aliases :

1200012G08Rik; cell surface retention sequence binding protein-1; cell surface retention sequence-binding protein 1; CRSBP1; CRSBP-1; extra cellular link domain-containing 1; extracellular link domain containing 1; extracellular link domain-containing 1; extracellular link domain-containing protein 1; HAR; hyaluronic acid receptor; lymphatic endothelial hyaluronan receptor LYVE-1; lymphatic vessel endothelial HA receptor-1; lymphatic vessel endothelial HA recptor-1; lymphatic vessel endothelial hyaluronan receptor 1; lymphatic vessel endothelial hyaluronic acid receptor 1; LYVE1; LYVE-1; sLyve 1; sLyve1; soluble LYVE 1; soluble LYVE1; UNQ230/PRO263; XLKD1

more info or order :

Invitrogen product webpage