Calretinin Antibody, clone 6B8.2 | EMD Millipore MAB1568 product information

This webpage contains legacy information. The product is either no longer available from the supplier or has been delisted at Labome.

product summary

company name :

EMD Millipore

other brands :

Oncogene Research Products, Calbiochem, Novagen, Merck, Upstate Biotechnology, Chemicon, LINCO, Novabiochem, Guava

product type :

antibody

product name :

Calretinin Antibody, clone 6B8.2

catalog :

MAB1568

quantity :

100 µg

clonality :

monoclonal

host :

mouse

conjugate :

nonconjugated

clone name :

6B8.2

reactivity :

Seba's short-tailed bat, common tree shrew , human, mouse, rat

application :

western blot, immunohistochemistry, immunocytochemistry, immunohistochemistry - paraffin section, immunohistochemistry - frozen section, immunohistochemistry - free floating section

citations: 103

Published Application/Species/Sample/Dilution	Reference
immunohistochemistry; mouse; 1:200; loading ...; fig s3a	Genet G, Boyé K, Mathivet T, Ola R, Zhang F, Dubrac A, et al. Endophilin-A2 dependent VEGFR2 endocytosis promotes sprouting angiogenesis. Nat Commun. 2019;10:2350 pubmed publisher
immunohistochemistry - paraffin section; rat; 1:250; loading ...; fig s3p	Mammone T, Chidlow G, Casson R, Wood J. Improved immunohistochemical detection of phosphorylated mitogen-activated protein kinases in the injured rat optic nerve head. Histochem Cell Biol. 2019;151:435-456 pubmed publisher
immunohistochemistry - frozen section; mouse; fig s6g	Dickel D, Ypsilanti A, Pla R, Zhu Y, Barozzi I, Mannion B, et al. Ultraconserved Enhancers Are Required for Normal Development. Cell. 2018;172:491-499.e15 pubmed publisher
immunohistochemistry - free floating section; mouse; 1:500; loading ...; fig 2d	Bayguinov P, Ma Y, Gao Y, Zhao X, Jackson M. Imaging Voltage in Genetically Defined Neuronal Subpopulations with a Cre Recombinase-Targeted Hybrid Voltage Sensor. J Neurosci. 2017;37:9305-9319 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200; loading ...; tbl 1	Seigneur E, SÃ¼dhof T. Cerebellins are differentially expressed in selective subsets of neurons throughout the brain. J Comp Neurol. 2017;525:3286-3311 pubmed publisher
immunohistochemistry - paraffin section; rat; 1:300 immunohistochemistry; rat; loading ...; fig 30	Furukawa S, Nagaike M, Ozaki K. Databases for technical aspects of immunohistochemistry. J Toxicol Pathol. 2017;30:79-107 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:1000; loading ...; fig 3b	Sinha R, Lee A, Rieke F, Haeseleer F. Lack of CaBP1/Caldendrin or CaBP2 Leads to Altered Ganglion Cell Responses. Eneuro. 2016;3: pubmed
immunohistochemistry - paraffin section; mouse; 1:100; loading ...; fig s1a	Sanges D, Simonte G, Di Vicino U, Romo N, Pinilla I, Nicolas M, et al. Reprogramming Müller glia via in vivo cell fusion regenerates murine photoreceptors. J Clin Invest. 2016;126:3104-16 pubmed publisher
immunohistochemistry; mouse; 1:100; fig 2	Liu X, Koehler K, Mikosz A, Hashino E, Holt J. Functional development of mechanosensitive hair cells in stem cell-derived organoids parallels native vestibular hair cells. Nat Commun. 2016;7:11508 pubmed publisher
immunohistochemistry; common tree shrew ; loading ...; fig 1a	Day Brown J, Slusarczyk A, Zhou N, Quiggins R, Petry H, Bickford M. Synaptic organization of striate cortex projections in the tree shrew: A comparison of the claustrum and dorsal thalamus. J Comp Neurol. 2017;525:1403-1420 pubmed publisher
immunohistochemistry - frozen section; rat; 1:500; fig s2	Kinjo E, Higa G, Santos B, de Sousa E, Damico M, Walter L, et al. Pilocarpine-induced seizures trigger differential regulation of microRNA-stability related genes in rat hippocampal neurons. Sci Rep. 2016;6:20969 pubmed publisher
immunohistochemistry; mouse; 1:400; fig 1	Anastasiades P, Marques Smith A, Lyngholm D, Lickiss T, Raffiq S, KÃ¤tzel D, et al. GABAergic interneurons form transient layer-specific circuits in early postnatal neocortex. Nat Commun. 2016;7:10584 pubmed publisher
immunohistochemistry - paraffin section; rat; 1:200; fig 4	Chidlow G, Wood J, Knoops B, Casson R. Expression and distribution of peroxiredoxins in the retina and optic nerve. Brain Struct Funct. 2016;221:3903-3925 pubmed
immunohistochemistry; mouse; 1:200; fig 3	Hakanen J, Salminen M. Defects in neural guidepost structures and failure to remove leptomeningeal cells from the septal midline behind the interhemispheric fusion defects in Netrin1 deficient mice. Int J Dev Neurosci. 2015;47:206-15 pubmed publisher
immunohistochemistry; mouse; 1:1500	Miyoshi G, Young A, PETROS T, Karayannis T, McKenzie Chang M, Lavado A, et al. Prox1 Regulates the Subtype-Specific Development of Caudal Ganglionic Eminence-Derived GABAergic Cortical Interneurons. J Neurosci. 2015;35:12869-89 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:3000; fig 3	Imoto Y, Kira T, Sukeno M, Nishitani N, Nagayasu K, Nakagawa T, et al. Role of the 5-HT4 receptor in chronic fluoxetine treatment-induced neurogenic activity and granule cell dematuration in the dentate gyrus. Mol Brain. 2015;8:29 pubmed publisher
immunohistochemistry; mouse; 1:1000	Jin K, Jiang H, Xiao D, Zou M, Zhu J, Xiang M. Tfap2a and 2b act downstream of Ptf1a to promote amacrine cell differentiation during retinogenesis. Mol Brain. 2015;8:28 pubmed publisher
immunocytochemistry; mouse; 1:1000 immunohistochemistry; mouse; 1:1000	Molgaard S, Ulrichsen M, Boggild S, Holm M, Vaegter C, Nyengaard J, et al. Immunohistochemical visualization of mouse interneuron subtypes. F1000Res. 2014;3:242 pubmed publisher
immunocytochemistry; mouse; 1:1000	Liu J, Liu B, Zhang X, Yu B, Guan W, Wang K, et al. Calretinin-positive L5a pyramidal neurons in the development of the paralemniscal pathway in the barrel cortex. Mol Brain. 2014;7:84 pubmed publisher
immunohistochemistry - frozen section; human; 1:500; fig 3	RadonjiÄ‡ N, Ortega J, Memi F, Dionne K, Jakovcevski I, Zecevic N. The complexity of the calretinin-expressing progenitors in the human cerebral cortex. Front Neuroanat. 2014;8:82 pubmed publisher
immunohistochemistry; mouse; 1:1000	Wang H, Yuan Y, Zhang Z, Yan H, Feng Y, Li W. Dysbindin-1C is required for the survival of hilar mossy cells and the maturation of adult newborn neurons in dentate gyrus. J Biol Chem. 2014;289:29060-72 pubmed publisher
immunocytochemistry; human	RadonjiÄ‡ N, Memi F, Ortega J, Glidden N, Zhan H, Zecevic N. The Role of Sonic Hedgehog in the Specification of Human Cortical Progenitors In Vitro. Cereb Cortex. 2016;26:131-43 pubmed publisher
immunohistochemistry; mouse; 1:1500; fig e1	Karayannis T, Au E, Patel J, Kruglikov I, Markx S, Delorme R, et al. Cntnap4 differentially contributes to GABAergic and dopaminergic synaptic transmission. Nature. 2014;511:236-40 pubmed
immunohistochemistry - free floating section; mouse; 1:1000	Liu Y, Liang X, Ren W, Li B. Expression of ?1- and ?2-adrenoceptors in different subtypes of interneurons in the medial prefrontal cortex of mice. Neuroscience. 2014;257:149-57 pubmed publisher
immunohistochemistry; mouse	Cagle M, Honig M. Parcellation of cerebellins 1, 2, and 4 among different subpopulations of dorsal horn neurons in mouse spinal cord. J Comp Neurol. 2014;522:479-97 pubmed publisher
immunohistochemistry - free floating section; mouse; 1:1000	Bergami M, Vignoli B, Motori E, Pifferi S, Zuccaro E, Menini A, et al. TrkB signaling directs the incorporation of newly generated periglomerular cells in the adult olfactory bulb. J Neurosci. 2013;33:11464-78 pubmed publisher
immunohistochemistry - paraffin section; rat; 1:500	Nivison Smith L, Sun D, Fletcher E, Marc R, Kalloniatis M. Mapping kainate activation of inner neurons in the rat retina. J Comp Neurol. 2013;521:2416-38 pubmed publisher
immunohistochemistry - frozen section; Seba's short-tailed bat; 1:1000; fig 3d-i	M ller B, Butz E, Peichl L, Haverkamp S. The rod pathway of the microbat retina has bistratified rod bipolar cells and tristratified AII amacrine cells. J Neurosci. 2013;33:1014-23 pubmed publisher
immunohistochemistry; rat; 1:500	Cox D, Racca C. Differential dendritic targeting of AMPA receptor subunit mRNAs in adult rat hippocampal principal neurons and interneurons. J Comp Neurol. 2013;521:1954-2007 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:1000	Ivanova E, Lee P, Pan Z. Characterization of multiple bistratified retinal ganglion cells in a purkinje cell protein 2-Cre transgenic mouse line. J Comp Neurol. 2013;521:2165-80 pubmed publisher
immunohistochemistry - frozen section; rat; 1:1000	Wakabayashi T, Kosaka J, Mori T, Yamada H. Prolonged expression of Puma in cholinergic amacrine cells during the development of rat retina. J Histochem Cytochem. 2012;60:777-88 pubmed
immunohistochemistry - frozen section; mouse; 1:1000	Kotani T, Murata Y, Ohnishi H, Mori M, Kusakari S, Saito Y, et al. Expression of PTPRO in the interneurons of adult mouse olfactory bulb. J Comp Neurol. 2010;518:119-36 pubmed publisher
immunohistochemistry - free floating section; rat; 1:500	Ingham E, Gunhan E, Fuller P, Fuller C. Immunotoxin-induced ablation of melanopsin retinal ganglion cells in a non-murine mammalian model. J Comp Neurol. 2009;516:125-40 pubmed publisher
immunohistochemistry - free floating section; rat; 1:600	Yang Z, You Y, Levison S. Neonatal hypoxic/ischemic brain injury induces production of calretinin-expressing interneurons in the striatum. J Comp Neurol. 2008;511:19-33 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:100	Poche R, Furuta Y, Chaboissier M, Schedl A, Behringer R. Sox9 is expressed in mouse multipotent retinal progenitor cells and functions in Müller glial cell development. J Comp Neurol. 2008;510:237-50 pubmed publisher
immunohistochemistry; rat; 1:500	Cox D, Racca C, LeBeau F. Beta-adrenergic receptors are differentially expressed in distinct interneuron subtypes in the rat hippocampus. J Comp Neurol. 2008;509:551-65 pubmed publisher
immunohistochemistry; mouse; 1:400	Treloar H, Uboha U, Jeromin A, Greer C. Expression of the neuronal calcium sensor protein NCS-1 in the developing mouse olfactory pathway. J Comp Neurol. 2005;482:201-16 pubmed
	Byun H, Lee H, Liu H, Forrest D, Rudenko A, Kim I. Rorβ regulates selective axon-target innervation in the mammalian midbrain. Development. 2019;146: pubmed publisher
	Anastasiades P, Boada C, Carter A. Cell-Type-Specific D1 Dopamine Receptor Modulation of Projection Neurons and Interneurons in the Prefrontal Cortex. Cereb Cortex. 2018;: pubmed publisher
	McInturff S, Burns J, Kelley M. Characterization of spatial and temporal development of Type I and Type II hair cells in the mouse utricle using new cell-type-specific markers. Biol Open. 2018;7: pubmed publisher
	Sun S, Babola T, Pregernig G, So K, Nguyen M, Su S, et al. Hair Cell Mechanotransduction Regulates Spontaneous Activity and Spiral Ganglion Subtype Specification in the Auditory System. Cell. 2018;174:1247-1263.e15 pubmed publisher
	Goodson N, Nahreini J, Randazzo G, Uruena A, Johnson J, Brzezinski J. Prdm13 is required for Ebf3+ amacrine cell formation in the retina. Dev Biol. 2018;434:149-163 pubmed publisher
	Zhou N, Masterson S, Damron J, Guido W, Bickford M. The Mouse Pulvinar Nucleus Links the Lateral Extrastriate Cortex, Striatum, and Amygdala. J Neurosci. 2018;38:347-362 pubmed publisher
	Lin Y, Chen C, Huang C, Nishimori K, Hsu K. Oxytocin stimulates hippocampal neurogenesis via oxytocin receptor expressed in CA3 pyramidal neurons. Nat Commun. 2017;8:537 pubmed publisher
	Close J, Yao Z, Levi B, Miller J, Bakken T, Menon V, et al. Single-Cell Profiling of an InÂ Vitro Model of Human Interneuron Development Reveals Temporal Dynamics of Cell Type Production and Maturation. Neuron. 2017;93:1035-1048.e5 pubmed publisher
	Imoto Y, Segi Nishida E, Suzuki H, Kobayashi K. Rapid and stable changes in maturation-related phenotypes of the adult hippocampal neurons by electroconvulsive treatment. Mol Brain. 2017;10:8 pubmed publisher
	Park K, Randazzo G, Jones K, Brzezinski J. Gsg1, Trnp1, and Tmem215 Mark Subpopulations of Bipolar Interneurons in the Mouse Retina. Invest Ophthalmol Vis Sci. 2017;58:1137-1150 pubmed publisher
	Terauchi A, Johnson Venkatesh E, Bullock B, Lehtinen M, Umemori H. Retrograde fibroblast growth factor 22 (FGF22) signaling regulates insulin-like growth factor 2 (IGF2) expression for activity-dependent synapse stabilization in the mammalian brain. elife. 2016;5: pubmed publisher
	Amrein I, Nosswitz M, Slomianka L, van Dijk R, Engler S, Klaus F, et al. Septo-temporal distribution and lineage progression of hippocampal neurogenesis in a primate (Callithrix jacchus) in comparison to mice. Front Neuroanat. 2015;9:85 pubmed publisher
	Druga R, Salaj M, Barinka F, Edelstein L, KubovÃ¡ H. Calretinin immunoreactivity in the claustrum of the rat. Front Neuroanat. 2014;8:160 pubmed publisher
	Chambers J, Uchida K, Ise K, Nakayama H. Cystic rete ovarii and uterine tube adenoma in a rabbit. J Vet Med Sci. 2014;76:909-12 pubmed
	Li Y, Hao H, Tzatzalos E, Lin R, Doh S, Liu L, et al. Topoisomerase IIbeta is required for proper retinal development and survival of postmitotic cells. Biol Open. 2014;3:172-84 pubmed publisher
	Liu W, Davis R. Calretinin and calbindin distribution patterns specify subpopulations of type I and type II spiral ganglion neurons in postnatal murine cochlea. J Comp Neurol. 2014;522:2299-318 pubmed publisher
	Slomianka L, Drenth T, Cavegn N, Menges D, Lazic S, Phalanndwa M, et al. The hippocampus of the eastern rock sengi: cytoarchitecture, markers of neuronal function, principal cell numbers, and adult neurogenesis. Front Neuroanat. 2013;7:34 pubmed publisher
	Kinjo E, Higa G, de Sousa E, Casado O, Damico M, Britto L, et al. A possible new mechanism for the control of miRNA expression in neurons. Exp Neurol. 2013;248:546-58 pubmed publisher
	Tekmen Clark M, Gleason E. Nitric oxide production and the expression of two nitric oxide synthases in the avian retina. Vis Neurosci. 2013;30:91-103 pubmed publisher
	Zhu Y, Misra S, Mistra S, Nivison Smith L, Acosta M, Fletcher E, et al. Mapping cation entry in photoreceptors and inner retinal neurons during early degeneration in the P23H-3 rat retina. Vis Neurosci. 2013;30:65-75 pubmed publisher
	Hofacer R, Deng M, Ward C, Joseph B, Hughes E, Jiang C, et al. Cell age-specific vulnerability of neurons to anesthetic toxicity. Ann Neurol. 2013;73:695-704 pubmed publisher
	Nivison Smith L, Collin S, Zhu Y, Ready S, Acosta M, Hunt D, et al. Retinal amino acid neurochemistry of the southern hemisphere lamprey, Geotria australis. PLoS ONE. 2013;8:e58406 pubmed publisher
	Hozumi Y, Matsui H, Sakane F, Watanabe M, Goto K. Distinct expression and localization of diacylglycerol kinase isozymes in rat retina. J Histochem Cytochem. 2013;61:462-76 pubmed publisher
	Mobley A, Bryant A, Richard M, Brann J, Firestein S, Greer C. Age-dependent regional changes in the rostral migratory stream. Neurobiol Aging. 2013;34:1873-81 pubmed publisher
	Kawai H, La M, Kang H, Hashimoto Y, Liang K, Lazar R, et al. Convergence of nicotine-induced and auditory-evoked neural activity activates ERK in auditory cortex. Synapse. 2013;67:455-68 pubmed publisher
	Kranz K, Dorgau B, Pottek M, Herrling R, Schultz K, Bolte P, et al. Expression of Pannexin1 in the outer plexiform layer of the mouse retina and physiological impact of its knockout. J Comp Neurol. 2013;521:1119-35 pubmed publisher
	Blom J, Giove T, Pong W, Blute T, Eldred W. Evidence for a functional adrenomedullin signaling pathway in the mouse retina. Mol Vis. 2012;18:1339-53 pubmed
	Murphy B, Hofacer R, Faulkner C, Loepke A, Danzer S. Abnormalities of granule cell dendritic structure are a prominent feature of the intrahippocampal kainic acid model of epilepsy despite reduced postinjury neurogenesis. Epilepsia. 2012;53:908-21 pubmed publisher
	Garbe D, Ring R. Investigating tonic Wnt signaling throughout the adult CNS and in the hippocampal neurogenic niche of BatGal and ins-TopGal mice. Cell Mol Neurobiol. 2012;32:1159-74 pubmed
	Gaucher D, Arnault E, Husson Z, Froger N, Dubus E, Gondouin P, et al. Taurine deficiency damages retinal neurones: cone photoreceptors and retinal ganglion cells. Amino Acids. 2012;43:1979-93 pubmed publisher
	Tian C, Gong Y, Yang Y, Shen W, Wang K, Liu J, et al. Foxg1 has an essential role in postnatal development of the dentate gyrus. J Neurosci. 2012;32:2931-49 pubmed publisher
	Haddad Tóvolli R, Heide M, Zhou X, Blaess S, Alvarez Bolado G. Mouse thalamic differentiation: gli-dependent pattern and gli-independent prepattern. Front Neurosci. 2012;6:27 pubmed publisher
	Kubota Y, Karube F, Nomura M, Gulledge A, Mochizuki A, Schertel A, et al. Conserved properties of dendritic trees in four cortical interneuron subtypes. Sci Rep. 2011;1:89 pubmed publisher
	Thumkeo D, Shinohara R, Watanabe K, Takebayashi H, Toyoda Y, Tohyama K, et al. Deficiency of mDia, an actin nucleator, disrupts integrity of neuroepithelium and causes periventricular dysplasia. PLoS ONE. 2011;6:e25465 pubmed publisher
	Wakabayashi T, Mori T, Hirahara Y, Koike T, Kubota Y, Takamori Y, et al. Nuclear lamins are differentially expressed in retinal neurons of the adult rat retina. Histochem Cell Biol. 2011;136:427-36 pubmed publisher
	Uchigashima M, Yamazaki M, Yamasaki M, Tanimura A, Sakimura K, Kano M, et al. Molecular and morphological configuration for 2-arachidonoylglycerol-mediated retrograde signaling at mossy cell-granule cell synapses in the dentate gyrus. J Neurosci. 2011;31:7700-14 pubmed publisher
	Murphy B, Danzer S. Somatic translocation: a novel mechanism of granule cell dendritic dysmorphogenesis and dispersion. J Neurosci. 2011;31:2959-64 pubmed publisher
	McMains E, Krishnan V, Prasad S, Gleason E. Expression and localization of CLC chloride transport proteins in the avian retina. PLoS ONE. 2011;6:e17647 pubmed publisher
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	Keniston L, Henderson S, Meredith M. Neuroanatomical identification of crossmodal auditory inputs to interneurons in somatosensory cortex. Exp Brain Res. 2010;202:725-31 pubmed publisher
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	Qin Z, Ye S, Du J, Shen G. Postnatal developmental expression of calbindin, calretinin and parvalbumin in mouse main olfactory bulb. Acta Biochim Biophys Sin (Shanghai). 2005;37:276-82 pubmed
	Fuentes Santamaria V, Alvarado J, Taylor A, Brunso Bechtold J, Henkel C. Quantitative changes in calretinin immunostaining in the cochlear nuclei after unilateral cochlear removal in young ferrets. J Comp Neurol. 2005;483:458-75 pubmed
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product information

Catalog Number :

MAB1568

Subcategory :

Neuroscience

Product Name :

Anti-Calretinin Antibody, clone 6B8.2

Product Type :

Antibodies

Clonality :

Monoclonal Antibody

Gene ID :

P22676

Host Name :

Mouse

Antigen :

Calretinin

Clone :

6B8.2

Conjugate :

Purified

Isotype :

IgG1

Product Description :

Anti-Calretinin Antibody, clone 6B8.2

Cross Reactivity :

Mouse;Rat

Background :

Calretinin is a 29 kDa calcium binding protein that is expressed in central and peripheral nervous system and in many normal and pathological tissues. Calretinin is also considered an important diagnostic aid in the differential diagnosis of cystic and solid ameloblastic tumors. The rat and human calretinin exhibit 98% sequence homology and 91% homology to many other species. Calretinin is generally expressed with two other calcium binding proteins Calbindin D-29 and parvalbumin in CNS and other peripheral tissues. Calretinin antibodies have been used to detect a number of carcinomas by clinicopathological, immunohistochemical techniques including, epithelial malignant mesotheliomas, Ovarian yolk sac tumor, Adenomatoid tumors of the uterus etc

ALT Names :

calbindin 2;calbindin 2, (29kD, calretinin)

Immunogen :

Recombinant rat calretinin (Heinze, L., 2007).

Specificity :

Calretinin is a neuron specific calcium binding protein (31 kDa) found mostly in the CNS and retina. It is present in subsets of neurons throughout the brain and spinal cord, including sensory ganglia. It shares about 55% amino acid homology with calbindin, another calcium binding protein found in brain and periphery. Studies suggest that calretinin, like calbindin, may be neuroprotective.

Package Size :

100 µg

Uses :

Immunohistochemistry;Western Blotting

Storage :

Stable for 6 months at 2-8°C in undiluted aliquots from date of receipt.