Search
Disclaimer
Clicking the images or links will redirect you to a website hosted by BenchSci that provides third-party scientific content. Neither the content nor the BenchSci technology and processes for selection have been evaluated by us; we are providing them as-is and without warranty of any kind, including for use or application of the Thermo Fisher Scientific products presented.
Invitrogen
Aluminum Monoclonal Antibody (6F5)
{{$productOrderCtrl.translations['antibody.pdp.commerceCard.promotion.promotions']}}
{{$productOrderCtrl.translations['antibody.pdp.commerceCard.promotion.viewpromo']}}
{{$productOrderCtrl.translations['antibody.pdp.commerceCard.promotion.promocode']}}: {{promo.promoCode}} {{promo.promoTitle}} {{promo.promoDescription}}. {{$productOrderCtrl.translations['antibody.pdp.commerceCard.promotion.learnmore']}}
产品信息
MA5-49739
产品规格
种属反应
Chemical
宿主/亚型
Mouse
/ IgG
分类
Monoclonal
类型
Antibody
克隆号
6F5
抗原
Conjugate of Al hapten and KLH
偶联物
形式
Liquid
浓度
2 mg/mL
纯化类型
Protein G
保存液
PBS, pH 7.4
内含物
0.09% sodium azide
保存条件
-20°C, Avoid Freeze/Thaw Cycles
运输条件
Ambient (domestic); Wet ice (international)
RRID
产品详细信息
Antibody tested in indirect ELISA
靶标信息
Aluminum interactions with biological systems, particularly plants, can involve gene expression modulation as part of the plant's defense mechanisms. Alterations in gene expression may occur in response to aluminum exposure, which can lead to phytotoxicity and genotoxicity. In plants, mechanisms for aluminum tolerance involve both internal sequestration and external defenses, such as the exudation of organic acids and the regulation of membrane transporters. There are different genetic factors and molecular pathways involved in managing aluminum toxicity, including those influenced by microRNAs and specific gene regulations. The study of these genes and pathways provides insights into plant resilience against environmental stresses caused by metals like aluminum.
仅用于科研。不用于诊断过程。未经明确授权不得转售。
篇参考文献 (0)
您是否在文献中引用过该产品?请点击下方按钮邮件告知我们。
