Quail cell marker | Developmental Studies Hybridoma Bank QCPN product information

product summary

company name :

Developmental Studies Hybridoma Bank

product type :

antibody

product name :

Quail cell marker

catalog :

QCPN

clonality :

monoclonal

host :

mouse

conjugate :

nonconjugated

clone name :

QCPN

application :

western blot, immunohistochemistry, immunocytochemistry

more info or order :

Developmental Studies Hybridoma Bank product webpage

citations: 38

Reference
Bai Z, Pu Q, Haque Z, Wang J, Huang R. The unique axon trajectory of the accessory nerve is determined by intrinsic properties of the neural tube in the avian embryo. Ann Anat. 2016;205:85-9 pubmed publisher
Tschopp P, Sherratt E, Sanger T, Groner A, Aspiras A, Hu J, et al. A relative shift in cloacal location repositions external genitalia in amniote evolution. Nature. 2014;516:391-4 pubmed publisher
Dupin E, Le Douarin N. The neural crest, a multifaceted structure of the vertebrates. Birth Defects Res C Embryo Today. 2014;102:187-209 pubmed publisher
Sánchez Guardado L, Puelles L, Hidalgo Sanchez M. Fate map of the chicken otic placode. Development. 2014;141:2302-12 pubmed publisher
Winters N, Williams A, Bader D. Resident progenitors, not exogenous migratory cells, generate the majority of visceral mesothelium in organogenesis. Dev Biol. 2014;391:125-32 pubmed publisher
Simkin J, Zhang D, Rollo B, Newgreen D. Retinoic acid upregulates ret and induces chain migration and population expansion in vagal neural crest cells to colonise the embryonic gut. PLoS ONE. 2013;8:e64077 pubmed publisher
Maekawa F, Sakurai M, Yamashita Y, Tanaka K, Haraguchi S, Yamamoto K, et al. A genetically female brain is required for a regular reproductive cycle in chicken brain chimeras. Nat Commun. 2013;4:1372 pubmed publisher
Hidalgo Sanchez M, Backer S, Puelles L, Bloch Gallego E. Origin and plasticity of the subdivisions of the inferior olivary complex. Dev Biol. 2012;371:215-26 pubmed publisher
O Neill P, Mak S, Fritzsch B, Ladher R, Baker C. The amniote paratympanic organ develops from a previously undiscovered sensory placode. Nat Commun. 2012;3:1041 pubmed publisher
Chen C, Balaban E, Jarvis E. Interspecies avian brain chimeras reveal that large brain size differences are influenced by cell-interdependent processes. PLoS ONE. 2012;7:e42477 pubmed publisher
Lorente Cánovas B, Marin F, Corral San Miguel R, Hidalgo Sanchez M, Ferran J, Puelles L, et al. Multiple origins, migratory paths and molecular profiles of cells populating the avian interpeduncular nucleus. Dev Biol. 2012;361:12-26 pubmed publisher
Lance Jones C, Shah V, Noden D, Sours E. Intrinsic properties guide proximal abducens and oculomotor nerve outgrowth in avian embryos. Dev Neurobiol. 2012;72:167-85 pubmed publisher
Wang B, Pu Q, De R, Patel K, Christ B, Wilting J, et al. Commitment of chondrogenic precursors of the avian scapula takes place after epithelial-mesenchymal transition of the dermomyotome. BMC Dev Biol. 2010;10:91 pubmed publisher
Nagy N, Oláh I. Experimental evidence for the ectodermal origin of the epithelial anlage of the chicken bursa of Fabricius. Development. 2010;137:3019-23 pubmed publisher
Lear P, Jayanthi N, Teague W, Johnson P. Foregut Mesenchyme Contributes Cells to Islets during Pancreatic Development in a 3-Dimensional Avian Model. Organogenesis. 2004;1:45-51 pubmed
Grenier J, Teillet M, Grifone R, Kelly R, Duprez D. Relationship between neural crest cells and cranial mesoderm during head muscle development. PLoS ONE. 2009;4:e4381 pubmed publisher
Goldstein A, Nagy N. A bird's eye view of enteric nervous system development: lessons from the avian embryo. Pediatr Res. 2008;64:326-33 pubmed publisher
Matsushita S, Urase K, Komatsu A, Scotting P, Kuroiwa A, Yasugi S. Foregut endoderm is specified early in avian development through signal(s) emanating from Hensen's node or its derivatives. Mech Dev. 2008;125:377-95 pubmed publisher
Merrill A, Eames B, Weston S, Heath T, Schneider R. Mesenchyme-dependent BMP signaling directs the timing of mandibular osteogenesis. Development. 2008;135:1223-34 pubmed publisher
Nagy N, Brewer K, Mwizerwa O, Goldstein A. Pelvic plexus contributes ganglion cells to the hindgut enteric nervous system. Dev Dyn. 2007;236:73-83 pubmed
Nagy N, Goldstein A. Intestinal coelomic transplants: a novel method for studying enteric nervous system development. Cell Tissue Res. 2006;326:43-55 pubmed
Nagy N, Goldstein A. Endothelin-3 regulates neural crest cell proliferation and differentiation in the hindgut enteric nervous system. Dev Biol. 2006;293:203-17 pubmed
Eames B, Schneider R. Quail-duck chimeras reveal spatiotemporal plasticity in molecular and histogenic programs of cranial feather development. Development. 2005;132:1499-509 pubmed
Nagy N, Bíró E, Takacs A, Pólos M, Magyar A, Oláh I. Peripheral blood fibrocytes contribute to the formation of the avian spleen. Dev Dyn. 2005;232:55-66 pubmed
Teague W, Jayanthi N, Lear P, Johnson P. Foregut mesenchyme contributes cells to pancreatic acini during embryonic development in a chick-quail chimera model. Pediatr Surg Int. 2005;21:138-42 pubmed
Gumati M, Magyar A, Nagy N, Kurucz E, Felföldi B, Oláh I. Extracellular matrix of different composition supports the various splenic compartments of guinea fowl ( Numida meleagris). Cell Tissue Res. 2003;312:333-43 pubmed
Navarro M, DeRuiter M, Carretero A, Ruberte J. Microvascular assembly and cell invasion in chick mesonephros grafted onto chorioallantoic membrane. J Anat. 2003;202:213-25 pubmed
Schneider R, Helms J. The cellular and molecular origins of beak morphology. Science. 2003;299:565-8 pubmed
Matsushita S, Ishii Y, Scotting P, Kuroiwa A, Yasugi S. Pre-gut endoderm of chick embryos is regionalized by 1.5 days of development. Dev Dyn. 2002;223:33-47 pubmed
Groves A, Bronner Fraser M. Competence, specification and commitment in otic placode induction. Development. 2000;127:3489-99 pubmed
Manner J. Does the subepicardial mesenchyme contribute myocardioblasts to the myocardium of the chick embryo heart? A quail-chick chimera study tracing the fate of the epicardial primordium. Anat Rec. 1999;255:212-26 pubmed
Schneider R. Neural crest can form cartilages normally derived from mesoderm during development of the avian head skeleton. Dev Biol. 1999;208:441-55 pubmed
Baker C, Stark M, Marcelle C, Bronner Fraser M. Competence, specification and induction of Pax-3 in the trigeminal placode. Development. 1999;126:147-56 pubmed
Köntges G, Lumsden A. Rhombencephalic neural crest segmentation is preserved throughout craniofacial ontogeny. Development. 1996;122:3229-42 pubmed
Yablonka Reuveni Z, Schwartz S, Christ B. Development of chicken aortic smooth muscle: expression of cytoskeletal and basement membrane proteins defines two distinct cell phenotypes emerging from a common lineage. Cell Mol Biol Res. 1995;41:241-9 pubmed
Selleck M, Bronner Fraser M. Origins of the avian neural crest: the role of neural plate-epidermal interactions. Development. 1995;121:525-38 pubmed
Liem K, Tremml G, Roelink H, Jessell T. Dorsal differentiation of neural plate cells induced by BMP-mediated signals from epidermal ectoderm. Cell. 1995;82:969-79 pubmed
Matsukawa K, Wall P, Wilson L, Mitchell J. Neurally mediated renal vasoconstriction during isometric muscle contraction in cats. Am J Physiol. 1992;262:H833-8 pubmed

product information

Internal ID :

1707

Name :

QCPN

Depositor Name :

Carlson, B.M. / Carlson, J.A.

Depositor Institution :

University of Michigan

Date Deposited :

5/6/92

Allow Hybridoma Distribution :

Yes

Cells Available (legacy) :

Yes

Antigen :

Quail cell marker

Antigen Species :

Quail

Host Species :

mouse

Isotype :

MIgG1, kappa light chain

Isotype for catalog (legacy) :

IgG1, kappa light chain

Positive Tested Species Reactivity :

Quail

Species Tested (legacy) :

quail, not chicken

Initial Publication Pubmed ID :

7768190

Depositor Notes (Special Instructions) :

This antibody is used to detect quail cells in chick-quail chimera xenographs.

Collections :

Cell markers

Search Keywords :

Carlson, Bruce M. / Carlson, Jean A., Quail cell marker, Quail, MIgG1, kappa light chain, Quail, , , AB_531886, monoclonal

Antibody Registry ID :

AB_531886

Immunogen :

Quail wing bud ZPA; HH Stage 21-24

Clonality :

Monoclonal

Myeloma Strain :

P3X63 - Ag 8.653

Epitope Mapped :

Recommended Applications :

FFPE,Immunofluorescence,Immunohistochemistry,Western Blot

Immunohistochemistry Pubmed IDs :

21739615 20702559 18287200 18374547 16937371 16736197 16519884 15728671 1558193 15580570 12756528 12647871 12543976 11803568 10903174 9834194 7768190 22019302 23717535 22948823 22960232 24821982 24746591 25219958 26955910

Immunofluorescence Pubmed IDs :

18287200 19521560

Western Blot Pubmed IDs :

12756528

FFPE Pubmed IDs :

12647871 10359522 10191057 8898235

Pubmed IDs :

18636038 7553857 8775982 23340412

DSHB Growth Medium :

Iscove's

References (legacy) :

Development 121, 525-538.; Cell 82, 969-979.; Cell. & Mol. Biol. Res. 41(4), 241-249.; Development 122, 3229-3242.; Dev. Biol. 208, 441-455.; Anat. Rec. 255, 212-226.; Development 126, 147-156.; Development 127, 3489-3499.; Development 128, 2755-2767.; Science 299, 565-568.; J. Anat. 202, 213-225.; Dev. Dyn. 223, 33-47.; Cell Tissue Res. 312, 333-343.; Organogenesis 1(2), 45-51.; Pediatr. Surg. Int. 21(3), 138-142.; Development 132, 1499-1509.; Dev. Dyn. 232, 55-66.; Dev. Biol. 293, 203-217.; Cell Tissue Res. 326, 43-55. ; Dev. Dyn. 236, 73-83.; Pediatr. Res. 64, 326-333.; Development 135, 1223-1234.; Mech. Dev. 125, 377-395.; Development 137, 3019-3023.

more info or order :

Developmental Studies Hybridoma Bank product webpage