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T25
PK15/PK15细胞系/PK15细胞株/PK15猪肾上皮细胞
Cell line name PK-15
Synonyms PK(15); PK (15); PK 15; PK15; Porcine Kidney-15
Accession CVCL_2160
Resource Identification Initiative To cite this cell line use: PK-15 (RRID:CVCL_2160)
Comments Part of: Naval Biosciences Laboratory (NBL) collection (transferred to ATCC in 1982).
Virology: PK-15 from ATCC was found to be infected with porcine circovirus type 1 (PCV1) (PubMed=2686830; PubMed=4151202).
Virology: Susceptible to infection by SARS coronavirus (SARS-CoV) (PubMed=15731278).
Doubling time: 12.1 +- 0.7 hours (PubMed=17889922); ~25 hours (DSMZ=ACC-640).
Omics: Transcriptome analysis by microarray.
Derived from site: In situ; Kidney; UBERON=UBERON_0002113.
Species of origin Sus scrofa (Pig) (NCBI Taxonomy: 9823)
Breed/subspecies: Hampshire; VBO=VBO_0001146.
Hierarchy Parent: CVCL_S287 (PK-2a)
Children:
CVCL_B0NA (PK-15/A11) CVCL_A5AA (PK-15(CD163)) CVCL_JF19 (PK-15A)
CVCL_YB14 (PK-15S) CVCL_YE75 (PK15 PERV-inactivated clone 15) CVCL_YE76 (PK15 PERV-inactivated clone 20)
Sex of cell Male
Age at sampling Adult
Category Spontaneously immortalized cell line
Publications
PubMed=5962858
Pirtle E.C.
Variation in the modal chromosome number of two PK-15 porcine kidney cell lines.
Am. J. Vet. Res. 27:747-749(1966)
DOI=10.1007/BF02618370
Stulberg C.S., Coriell L.L., Kniazeff A.J., Shannon J.E.
The animal cell culture collection.
In Vitro 5:1-16(1970)
PubMed=4132403; DOI=10.1016/0042-6822(74)90141-X
Todaro G.J., Benveniste R.E., Lieber M.M., Sherr C.J.
Characterization of a type C virus released from the porcine cell line PK(15).
Virology 58:65-74(1974)
PubMed=4151202
Tischer I., Rasch R., Tochtermann G.
Characterization of papovavirus-and picornavirus-like particles in permanent pig kidney cell lines.
Zentralbl. Bakteriol. Orig. A. 226:153-167(1974)
PubMed=6160900; PMCID=PMC1320103
Fulton R.W., Pearson N.J.
Interferon production by bovine tracheal organ cultures infected with bovid herpesvirus 1 strains.
Can. J. Comp. Med. 44:447-452(1980)
PubMed=6988327; DOI=10.1007/BF02831503
O'Brien S.J., Shannon J.E., Gail M.H.
A molecular approach to the identification and individualization of human and animal cells in culture: isozyme and allozyme genetic signatures.
In Vitro 16:119-135(1980)
PubMed=3009166; DOI=10.1507/endocrj1954.32.819
Kinoshita Y., Fukase M., Takenaka M., Nakada M., Miyauchi A., Fujita T.
Calcitonin-responsive clonal cell line from porcine kidney (PK(15)) in serum-free medium.
Endocrinol. Jpn. 32:819-828(1985)
PubMed=3173126
Buonavoglia C., Falcone E., Pestalozza S., Iovane G., Rivero V.B.
Susceptibility of a minipig kidney cell line (MPK) to hog cholera virus.
Microbiologica 11:263-264(1988)
PubMed=2686830; PMCID=PMC1255571
Dulac G.C., Afshar A.
Porcine circovirus antigens in PK-15 cell line (ATCC CCL-33) and evidence of antibodies to circovirus in Canadian pigs.
Can. J. Vet. Res. 53:431-433(1989)
PubMed=15731278; DOI=10.1128/JVI.79.6.3846-3850.2005; PMCID=PMC1075706
Mossel E.C., Huang C., Narayanan K., Makino S., Tesh R.B., Peters C.J.
Exogenous ACE2 expression allows refractory cell lines to suppon.
J. Virol. 79:3846-3850(2005)
PubMed=17889922; DOI=10.1016/j.virol.2007.08.014
Zhu Y., Lau A.H.-L., Lau J.S.-K., Jia Q., Karuppannan A.K., Kwang J.H.-S.
Enhanced replication of porcine circovirus type 2 (PCV2) in a homogeneous subpopulation of PK15 cell line.
Virology 369:423-430(2007)
PubMed=19508353; DOI=10.1111/j.1744-313X.2009.00853.x
Ho C.S., Franzo-Romain M.H., Lee Y.J., Lee J.H., Smith D.M.
Sequence-based characterization of swine leucocyte antigen alleles in commercially available porcine cell lines.
Int. J. Immunogenet. 36:231-234(2009)
PubMed=19937495; DOI=10.1080/10495390903139950
Uebing-Czipura A.U., Dawson H.D., Rutherford M.S., Scherba G.
Transcriptome profile and cytogenetic analysis of immortalized neuronally restricted progenitor cells derived from the porcine olfactory bulb.
Anim. Biotechnol. 20:186-215(2009)
PubMed=19941903; DOI=10.1016/j.jviromet.2009.11.022
Karger A., Bettin B., Lenk M., Mettenleiter T.C.
Rapid characterisation of cell cultures by matrix-assisted laser desorption/ionisation mass spectrometric typing.
J. Virol. Methods 164:116-121(2010)
PubMed=24398227; DOI=10.1016/j.vetmic.2013.12.001; PMCID=PMC3969584
Lithgow P.E., Takamatsu H., Werling D., Dixon L.K., Chapman D.
Correlation of cell surface marker expression with African swine fever virus infection.
Vet. Microbiol. 168:413-419(2014)
PubMed=26456528; DOI=10.1126/science.aad1191
Yang L.-H., Guell M., Niu D., George H., Lesha E., Grishin D., Aach J., Shrock E., Xu W.-H., Poci J., Cortazio R., Wilkinson R.A., Fishman J.A., Church G.M.
Genome-wide inactivation of porcine endogenous retroviruses (PERVs).
Science 350:1101-1104(2015)
PubMed=31216434; DOI=10.1016/j.jviromet.2019.113682
Li Y.-Y., Wang Y.-J., Zhou X.-H., Zhang X.-K., Zhang X.-Y., Xia X.-L., Sun H.-C.
Generation of PK-15 cell lines highly permissive to porcine circovirus 2 infection by transposon-mediated interferon-gamma gene transfer.
J. Virol. Methods 271:113682.1-113682.6(2019)
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文献和实验*发表【中文论文】请标注:由上海酶研生物科技有限公司提供;
*发表【英文论文】请标注:From Shanghai EK-Bioscience Biotechnology Co., Ltd.
周一,柚子酱依然爱你。①干细胞也会“近墨者黑”?赫尔辛基大学的研究人员发现,以抑制干细胞维持信号的酶为靶点,可以使老化肠的再生潜能恢复。这一发现可能为缓解与衰老相关的胃肠道问题、减少癌症治疗的副作用以及通过促进康复来降低老龄化社会的医疗成本开辟道路。“这项研究强调了细胞相互作用的重要性。一个细胞的内部变化导致了一种衰老因子的分泌,这种因子可以作为药物的靶标,为干预提供多个有用的靶点,”赫尔辛基大学和卡罗林斯卡学院的副教授,该项目的主要研究者Pekka Katajisto说。原文检索:Notum
白细胞介素 IL-15 IL 15主要产生细胞:单核细胞、巨噬细胞、胎盘、肌肉组织 IL 15氨基酸数目:114 IL 15分子质量(kDa):14~18 IL 15受体:1L-15R;CDl22;CDl32(γc) IL 15主要生物学活性:刺激活化T细胞,趋化T细胞,诱导CTL产生和促进其杀伤活性;诱导NK细胞的早期分化,刺激NK增殖、杀伤和细胞因子产生;刺激活化B细胞
人 白细胞介素-15(IL-15) 酶联免疫 分析( ELISA ) 试剂 盒使用说明书 本试剂仅供研究使用 目的:本试剂盒用于测定人血清,血浆及相关液体样本中 白细胞介素-15(IL-15)的 含量。 实验原理 : 本试剂盒应用 双抗体 夹心法测定 标本 中 人白细胞介素-15 ( IL-15 ) 水平。用纯化的 人白细胞介素-15 ( IL-15 )抗体 包被微孔板,制成固相 抗 体,往包被 单抗 的微孔中依次加入
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