成人免费xx,国产又黄又湿又刺激不卡网站,成人性视频app菠萝网站,色天天天天

Home Cart Sign in  
Chemical Structure| 1187-84-4 Chemical Structure| 1187-84-4
Chemical Structure| 1187-84-4

*Storage: {[sel_prStorage]}

*Shipping: {[sel_prShipping]}

{[proInfo.proName]}

CAS No.: 1187-84-4

,{[proInfo.pro_purity]}

Methylcysteine is one of the identified number of bioactive substances in garlic that are water soluble that may exert some chemopreventive effects on chemical carcinogenesis.

Synonyms: L-S-Methylcysteine; NSC 15387; SMLC

4.5 *For Research Use Only !

{[proInfo.pro_purity]}
Cat. No.: {[proInfo.prAm]} Purity: {[proInfo.pro_purity]}

Change View

Size Price VIP Price

US Stock

Global Stock

In Stock
{[ item.pr_size ]} Inquiry {[ getRatePrice(item.pr_usd,item.pr_rate,item.mem_rate,item.pr_is_large_size_no_price, item.vip_usd) ]}

US Stock: ship in 0-1 business day
Global Stock: ship in 2 weeks

  • {[ item.pr_size ]}

In Stock

- +

Please Login or Create an Account to: See VIP prices and availability

US Stock: ship in 0-1 business day
Global Stock: ship in 2 weeks

  • 1-2 Day Shipping
  • High Quality
  • Technical Support Online Technical Q&A
Product Citations

Product Citations

Behymer, Matthew M. ; Mo, Huaping ; Fujii, Naoaki ; Suresh, Vallabh ; Chan, Adriano ; Lee, Jangweon , et al.

Abstract: The development of rapidly acting cyanide countermeasures using i.m. injection (IM) represents an unmet medical need to mitigate toxicant exposures in mass casualty settings. Previous work established that cisplatin and other platinum(II) or platinum(IV)-based agents effectively mitigate cyanide toxicity in zebrafish. Cyanide′s in vivo reaction with platinum-containing materials was proposed to reduce the risk of acute toxicities. However, cyanide antidote activity depended on a formulation of platinum-chloride salts with DMSO (DMSO) followed by dilution in phosphate-buffered saline (PBS). A working hypothesis to explain the DMSO requirement is that the formation of platinum-sulfoxide complexes activates the cyanide scavenging properties of platinum. Preparations of isolated NaPtCl5-DMSO and Na (NH3)2PtCl-DMSO complexes in the absence of excess DMSO provided agents with enhanced reactivity toward cyanide in vitro and fully recapitulated in vivo cyanide rescue in zebrafish and mouse models. The enhancement of the cyanide scavenging effects of the DMSO ligand could be attributed to the activation of platinum(IV) and (II) with a sulfur ligand. Unfortunately, the efficacy of DMSO complexes was not robust when administered IM. Alternative Pt(II) materials containing sulfide and amine ligands in bidentate complexes show enhanced reactivity toward cyanide addition The cyanide addition products yielded tetracyanoplatinate(II), translating to a stoichiometry of 1:4 Pt to each cyanide scavenger. These new agents demonstrate a robust and enhanced potency over the DMSO-containing complexes using IM administration in mouse and rabbit models of cyanide toxicity. Using the zebrafish model with these Pt(II) complexes, no acute cardiotoxicity was detected, and dose levels required to reach lethality exceeded 100 times the ED. Data are presented to support a general chem. design approach that can expand a new lead candidate series for developing next-generation cyanide countermeasures.

Purchased from AmBeed: ; ; ; ; ; ;

Alternative Products

Product Details of H-Me-Cys-OH

CAS No. :1187-84-4
Formula : C4H9NO2S
M.W : 135.18
SMILES Code : O=C(O)[C@@H](N)CSC
Synonyms :
L-S-Methylcysteine; NSC 15387; SMLC
MDL No. :MFCD00002612
InChI Key :IDIDJDIHTAOVLG-VKHMYHEASA-N
Pubchem ID :24417

Safety of H-Me-Cys-OH

GHS Pictogram:
Signal Word:Warning
Hazard Statements:H315-H319-H335
Precautionary Statements:P261-P305+P351+P338
 

Related Products

Historical Records

Categories