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主营:分子类,蛋白类,抗体类,生化类试剂
℡ 4000-520-616
℡ 4000-520-616
TheNativeAntigenCompany/Rabbit Anti-Borrelia burgdorferi sensu stricto (ZS7) Flagellin Antibody/25ug/PAB21453-25
产品编号:PAB21453-25
市  场 价:¥1920.00
场      地:美国(厂家直采)
联系QQ:1570468124
电话号码:4000-520-616
邮      箱: info@ebiomall.com
美  元  价:$96.00
品      牌: TheNativeAntigenCompany
公      司:TheNativeAntigenCompany
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TheNativeAntigenCompany/Rabbit Anti-Borrelia burgdorferi sensu stricto (ZS7) Flagellin Antibody/25ug/PAB21453-25
商品介绍

RABBIT ANTI-BORRELIA BURGDORFERI SENSU STRICTO (ZS7) FLAGELLIN ANTIBODY

This is a polyclonal antibody, prepared against Flagellin from the spirochete B. burgdorferi, for use in ELISA and Western blotting applications.

PRODUCT DETAILS – RABBIT ANTI-BORRELIA BURGDORFERI SENSU STRICTO (B31) VLSE ANTIBODY

  • Rabbit anti-B. burgdorferi sensu stricto Flagellin polyclonal IgG antibody (strain ZS7).
  • Greater than 95% purity by SDS-PAGE and buffered in 0.02 M Potassium Phosphate, 0.15 M Sodium Chloride, pH 7.2.

BACKGROUND

Strain ZS7 was isolated from Ixodes rizinus ticks collected by flagging in the Freiburg, Germany area in the 1980s (Schutzer et al., 2011).

The flagella of B. burgdorferi are different from those of other spirochaetes in that they are not surrounded by an outer sheath layer but are comprised of a single flagellin protein. Unlike other bacterial flagella, those of the spirochaetes are situated within the periplasm and are referred to as periplasmic flagella. Studies comparing aflagellate Borrelia to flagellated indicate that the flagella have a role in the invasion of human tissue (Panelius, et al., 2001).

The 41 kD flagellin of B. burgdorferi is a major component of the periplasmic flagellar filament core, found in the hollow cylinder forming the filament. Its structure is helical, which is important for its function (Wallich, et al., 1990). The N- and C-termini of flagellin form the inner core of the flagellar filament, and the central portion of the protein makes up the outer surface. While the terminus of the protein is quite similar between all bacterial flagellins, the central portion is variable.

The flagellin genes are highly conserved among the different Borrelia species (Noppa, et al., 1995). Borrelia have double-stranded linear plasmids in addition to supercoiled circular plasmids, in low copy number. This suggests that initiation of DNA replication and partitioning are carefully controlled during the cell division cycle (Casselli, et al., 2012). Mammals often have acquired immune responses (T-cell and antibody responses) to flagellated bacterium and some bacteria are able to switch between multiple flagellin genes in order to evade this response; B. burgdorferi may also use this tactic when challenging mammals with infection (Noppa, et al., 1995).

It is believed that expression of the various proteins associated with the spirochete may be regulated by the changes in tick life cycle, changes in conditions during tick feeding (such as temperature, pH, and nutrients) and/or in coordination with the course of infection of the mammal host, i.e., changes in environment as the spirochete migrates from the tick’s midgut to its salivary glands to the mammal host. B. burgdorferi can attach to (and also differentially express antigens in) diverse tissues within the vertebrate host and the tick vector, suggesting that physiological factors other than pH and temperature may play roles in modulating B. burgdorferi gene expression. Flagellin is considered a good candidate for serodiagnosis in early stage of Lyme disease (Liu, et al., 2016) and in some instances has been the only detectable protein in serologic assays (Wagemakers, et al., 2018).

REFERENCES

  • Casselli, T., Tourand, Y. & Bankhead, T., 2012. Altered murine tissue colonization by Borrelia burgdorferi following targeted deletion of linear plasmid 17-carried genes. Infection and Immunity, 80(5), pp. 1773-1782.
  • Liu, H. et al., 2016. Polymorphism of 41 kD Flagellin Gene and Its Human B-Cell Epitope in Borrelia burgdorferi Strains of China. BioMed Research International, Volume 2016, p. 7.
  • Noppa, L. et al., 1995. Expression of the flagellin gene in Borrelia is controlled by an alternative c factor. Microbiology, Volume 141, pp. 85-93.
  • Panelius, J. et al., 2001. Recombinant Flagellin A Proteins from Borrelia burgdorferi Sensu Stricto, B. afzelii, and B. garinii in Serodiagnosis of Lyme Borreliosis. Journal of Clinical Microbiology.
  • Schutzer, S.E. et al., 2011. Whole-genome sequences of thirteen isolates of Borrelia burgdorferi. J Bacteriol, 193, pp. 1018-1020.
  • Wagemakers, A. et al., 2018. Case report: persistently seronegative neuroborreliosis in an immunocompromised patient. BMC Infectious Diseases, Volume 18, p. 362.
  • Wallich, R. et al., 1990. The Borrelia burgdorferi flagellum-associated 41-kilodalton antigen (flagellin): molecular cloning, expression, and amplification of the gene. Infect Immun., 58(6), pp. 1711-1719.

Product datasheet – PAB21453-25Product datasheet – PAB21453-100Safety datasheet

Western blot showing detection of 0.1µg of recombinant Flagellin protein. Lane 1: Molecular weight markers. Lane 2: MBP-Flagellin fusion protein (arrowhead at expected MW: 76.3 kDa). Lane 3: MBP alone. Protein was run on a 4-20% gel, then transferred to 0.45 µm nitrocellulose. After blocking with 1% BSA-TTBS overnight at 4°C, primary antibody was used at 1:1000 at room temperature for 30 min. HRP-conjugated Goat-Anti-Rabbit secondary antibody was used at 1:40,000 in HiGlo Blocking Buffer and imaged on the VersaDoc™ MP 4000 imaging system (Bio-Rad).

Dry ice – PAB21453-25Ambient – PAB21453-100

品牌介绍

Native Antigen公司开发了专有的HEK293哺乳动物表达系统(VirtuE),用于表达重组蛋白。我们的  VirtuE系统能够引入适当的蛋白质折叠和完整的翻译后修饰,这对于完整的生物学和抗原活性至关重要。

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