Triethylene glycol HO(CH2CH2O)3H

TEG is a liquid higher glycol of very low vapor pressure with uses that are primarily industrial. It has a very low order of acute toxicity by i.v., i.p., peroral, percutaneous and inhalation (vapor and aerosol) routes of exposure. It does not produce primary skin irritation. Acute eye contact with the liquid causes mild local transient irritation (conjunctival hyperemia and slight chemosis) but does not induce corneal injury. Animal maximization and human volunteer repeated insult patch tests studies have shown that TEG does not cause skin sensitization. A study with Swiss-Webster mice demonstrated that TEG aerosol has properties of a peripheral chemosensory irritant material and caused a depression of breathing rate with an RD(50) of 5140 mg m(-3). Continuous subchronic peroral dosing of TEG in the diet of rats did not produce any systemic cumulative or long-term toxicity. The effects seen were dose-related increased relative kidney weight, increased urine volume and decreased urine pH, probably a result of the renal excretion of TEG and metabolites following the absorption of large doses of TEG. There was also decreased hemoglobin concentration, decreased hematocrit and increased mean corpuscular volume, probably due to hemodilution following absorption of TEG. The NOAEL was 20 000 ppm TEG in diet. Short-term repeated aerosol exposure studies in the rat demonstrated that, by nose-only exposure, the threshold for effects by respiratory tract exposure was 1036 mg m(-3). Neither high dosage acute nor repeated exposures to TEG produce hepatorenal injury characteristic of that caused by the lower glycol homologues. Elimination studies with acute peroral doses of TEG given to rats and rabbits showed high recoveries (91-98% over 5 days), with the major fraction appearing in urine (84-94%) and only 1% as CO(2). TEG in urine is present in unchanged and oxidized forms, but only negligible amounts as oxalic acid. Developmental toxicity studies with undiluted TEG given by gavage produced maternal toxicity in rats (body weight, food consumption, water consumption, and relative kidney weight) with a NOEL of 1126 mg kg(-1) day(-1), and mice (relative kidney weight) with a NOEL of 5630 mg kg(-1) day(-1). Developmental toxicity, expressed as fetotoxicity, had a NOEL of 5630 mg kg(-1) day(-1) with the rat and 563 mg kg(-1) day(-1) with mice. Neither species showed any evidence of embryotoxicity or teratogenicity. There was no evidence for reproductive toxicity with mice given up to 3% TEG in drinking water in a continuous breeding study. TEG did not produce mutagenic or clastogenic effects in the following in vitro genetic toxicology studies: Salmonella typhimurium reverse mutation test, SOS-chromotest in E. coli, CHO forward gene mutation test (HGPRT locus), CHO sister chromatid exchange test, and a chromosome aberration test with CHO cells. The use patterns suggest that exposure to TEG is mainly occupational, with limited exposures by consumers. Exposure is normally by skin and eye contact. Local and systemic adverse health effects by cutaneous exposure are likely not to occur, and eye contact will produce transient irritation without corneal injury. The very low vapor pressure of TEG makes it unlikely that significant vapor exposure will occur. Aerosol exposure is not a usual exposure mode, and acute aerosol exposures are unlikely to be harmful, although a peripheral sensory irritant effect may develop. However, repeated exposures to a TEG aerosol may result in respiratory tract irritation, with cough, shortness of breath and tightness of the chest. Recommended protective and precautionary measures include protective gloves, goggles or safety glasses and mechanical room ventilation. LC(50) data to various fish, aquatic invertebrates and algae, indicate that TEG is essentially nontoxic to aquatic organisms. Also, sustained exposure studies have demonstrated that TEG is of a low order of chronic aquatic toxicity. The bioconcentration potential, environmental hydrolysis, and photolysis rates are low, and soil mobility high. In the atmosphere TEG is degraded by reacting with photochemically produced hydroxyl radicals. These considerations indicate that the potential for ecotoxicological effects with TEG is low.     

Cardiotropic activity of synthetic peptide CH3CO-Lys-Lys-Arg-Arg-NH2 (protectin)

Peptide CH3CO-Lys-Lys-Arg-Arg-NH2 (protectin) was synthesized and its activity was studied on the model of experimental myocardial infarction in rats in comparison to the reference antihypoxant drug riboxin. Intranasal injections ofprotectin at doses within 2-20 microg/kg once a day by course of 7 days produced a pronounced anti-ischemic action, improved coronary circulation of the blood, increases contractile activity of myocardium, reduced intensity of lipid peroxidation, and improved antioxidant protection. In some respects (improved coronary circulation of the blood, increased antioxidant protection), protectin was more effective than riboxin.     

Synthesis and biological activities of linear and cyclic enkephalin analogues containing a Ψ (E,CH=CH) or Ψ (CH2CH2) isosteric replacement

The peptide CO–NH function was replaced by a trans carbon-carbon double bond or by a CH₂–CH₂ isostere in enkephalin analogues of DADLE, DCDCE–NH₂ or DPDPE. In DADLE the 2-3 and the 3-4 peptide bond was modified, whereas in the cyclic analogues the Gly³-Phe⁴ bond was replaced by the isosteres GlyΨ (E,CH=CH)Phe [5-amino-2-(phenylmethyl)-3(E)-pentenoic acid] or GlyΨ(CH₂CH₂)Phe [5-amino-2-(phenylmethyl)pentanoic acid]. In general, the modification results in a drop in potency which is the largest for the flexible CH₂–CH₂ replacement. The Gly³Ψ (E,CH=CH)Phe⁴ DCDCE–NH₂ analogue retains considerable potency. These results confirm the importance of the peptide function at the 2-3 and 3-4 position in enkephalin analogues for biological potency.     

AN AB INITIO INVESTIGATION OF MOLECULES WITH A DISULFIDE BOND: (HS)2, (CH3S)2 AND CYSTINE

ab initio Calculations at the Gaussian-70 STO-3G and 4-31G basis levels have been carried out for (HS)₂ and (CH₃S)₂. Cystine was investigated at the STO-3G level. The STO-3G energy minimized geometry agrees well with experiments for (HS)₂ and (CH₃S)₂. The barriers to internal rotation are predicted to be (at the 4.31G level): (HS)₂, cis 8.5 kcal, trans 3.03 kcal; (CH₃S)₂, cis 18.47 kcal, trans 6.04 kcal.     

Biological consequences of trinuclear platinum complexes: comparison of [[trans-PtCl(NH3)2]2mu-(trans-Pt(NH3)2(H2N(CH2)6-NH2)2)]4+ (BBR 3464) with its noncovalent congeners

[[trans-PtCl(NH(3))(2)](2)mu-(trans-Pt(NH(3))(2)(H(2)N(CH(2))(6)NH(2))(2))](4+) (BBR 3464) is a 4+ cationic trinuclear platinum drug that has undergone phase II clinical trials in the treatment of ovarian and lung cancers. The chemical structure of BBR 3464 is distinct from that of clinically used agents such as cisplatin and oxaliplatin. As a consequence, the modes of DNA binding and the structures of BBR 3464 DNA adducts are also structurally distinct from those formed by cisplatin and oxaliplatin. Previous chemical and spectroscopic measurements on BBR 3464 had elucidated a significant noncovalent contribution to DNA binding. To examine this effect further, the biological activity of two BBR 3464 analogs that bind DNA only through noncovalent interactions was investigated in this study, and their cellular effects were compared with those caused by the "parent" drug. The compounds were [[trans-PtL(NH(3))(2)](2)mu-(trans-Pt(NH(3))(2)(H(2)N(CH(2))(6)NH(2))(2))](n+), with L = NH(3), n = 6 for compound I, and L = H(2)N(CH(2))(6)NH(3), n = 8 for compound II. All compounds induce caspase-dependent apoptosis in both primary mast cells and transformed mastocytomas, although with a smaller IC(50) value in the transformed cells. In cells deficient in either the tumor suppressor proteins p53 or Bax, apoptosis was least affected in the case of II, but in all cases the effect of p53 deficiency was greater than that of Bax. Surprisingly, cellular uptake was actually enhanced for the more highly charged compounds, resulting in significant (micromolar) cyotoxicity for II. Cellular accumulation was enhanced in mastocytomas over primary mast cells, suggesting a mechanism for enhancement of tumor cell selectivity.     

Solid phase synthesis of peptides containing the non-hydrolysable analog of (O)phosphotyrosine,P(CH2PO3H2)Phe

Studies about phosphorylation-dephosphorylation mechanisms require the development of probes capable of being used in in vitro and in vivo conditions. We show in this work that the chemically and enzymatically stable p(CH₂PO₃H₂) Phe analog of (O)phosphotyrosine can be easily introduced in peptides by the solid-phase method. It has been incorporated in the 344-357 sequence of the β₂ adrenergic receptor in place of the Tyr residue in position 350 and/or 354 in order to investigate the role of tyrosine phosphorylation in the receptor agonist-induced down-regulation. Since p(CH₂PO₃H₂)Phe is an ionized hydrophilic residue, peptides containing this amino acid do not easily permeate the cellular membranes. Therefore the modified amino acid was introduced in the synthetic pathway in its N-Boc- p (CH₂PO₃Et₂)Phe form, which could be partially or completely deprotected. Coupling steps, including that of the new amino acid, were performed with good yields (~60% total yield) and further deprotections provided both the p(CH₂PO₃H₂)Phe and p(CH₂PO₃HEt)Phe containing peptides with yields of around 20% each. The structure of the peptides was assessed by NMR, mass spectroscopy and amino acid analysis and the new amino acid was characterized under its phenyl-thiocarbamyl form (PTC).     

A novel radiolabeled vasopressin antagonist: [3H-Phe]-desGlyd(CH2)5D-Tyr(Et)VAVP, [3H]-SK&F 101926

We report the vasopressin receptor-binding properties of [3H-Phe]-desGlyd(CH2)5D-Tyr(Et)VAVP, [3H]-SK&F 101926, the first radiolabeled vasopressin receptor antagonist. We chose to radiolabel SK&F 101926 because this vasopressin analog is a potent antagonist of vascular V1 and renal V2 vasopressin receptors in all species studied. [3H]-SK&F 101926 bound with a single high affinity to intact vascular smooth muscle cells (A-10; KD = 0.5 nM), and plasma membranes A-10 cells (KD = 0.4 nM) and rat liver (KD = 0.2 nM). In competition experiments with [3H]-SK&F 101926 and [3H]arginine vasopressin ([3H]AVP) using cell and liver membranes, the affinity rank orders of vasopressin analogs were the same and were typical for the V1 receptor subtype. In competition binding experiments with [3H]-SK&F 101926 using cell and liver membranes, guanosine 5'-(beta,gamma-imido)triphosphate did not significantly alter the affinity of the V1 antagonist d(CH2)5Tyr(Me)AVP, but the affinity of AVP was decreased. These data indicate that the V1 receptor can exist in at least two affinity states that are modulated by guanine nucleotides. [3H]-SK&F 101926 also bound specifically and with high affinity to V2 receptors of MDCK cells. We conclude that [3H]-SK&F 101926 binds with high affinity to V1 and V2 vasopressin receptors and is a powerful new tool for the identification of vasopressin receptors and the study of molecular mechanisms involved in the interaction of vasopressin with its receptors.     

Pharmacokinetics of Inhaled Methyl Chloride (CH3Cl) in Male Volunteers

Pharmacokinetics of Inhaled Methyl Chloride (CH₃Cl) in MaleVolunteers. Nolan, R. J., RICK, D. L., LANDRY, T. D., MCCARTY,L. P., AGIN, G. L., and SAUNDERS, J. H. (1985). Fundam. Appl.Toxicol. 5, 361–369. Six volunteers, 25–41 yearsof age, were exposed for 6 hr on separate days to 50 and 10ppm of CH₃Cl. Blood and expired air CH₃Cl concentrations reachedan apparent plateau during the first hour of the exposure andwere proportional to the exposure concentration. Consistentwith previous reports, the volunteers could be separated intotwo discrete groups based on the differences observed in theirblood and expired air CH₃Cl concentrations. Both groups eliminatedCH₃Cl rapidly once the exposure was terminated, but CH₃Cl waseliminated more rapidly by those volunteers with the lower bloodand expired air CH₃Cl concentrations. The existence of thesetwo groups can be explained by a twofold difference in the rateat which they metabolized CH₃Cl; however, this difference isof questionable toxicological significance. Urinary excretionof the putative metabolite S-methyl cysteine was not relatedto the exposure; thus, it is not a valid means of monitoringoccupational exposure to CH₃Cl.     

Stability of arsenic metabolites, arsenic triglutathione [As(GS)3] and methylarsenic diglutathione [CH3As(GS)2], in rat bile

Inorganic arsenicals such as arsenite (iAs(III)) and arsenate (iAs(V)) are well-known human carcinogens. Arsenic is metabolized by repetitive reduction and oxidative methylation, and is excreted mainly in urine as monomethylated arsenicals (MMAs) and dimethylated arsenicals (DMAs). Recently, it has been shown that iAs(III) administered intravenously or orally is excreted into bile as arsenic-glutathione (As-GSH) complexes such as arsenic triglutathione [As(GS)(3)] and methylarsenic diglutathione [CH(3)As(GS)(2)]. In order to carry out the speciation of As-GSH complexes, it is important to understand their stability. The present study was designed to clarify the stability of As-GSH complexes in rat bile, and the role of GSH in stabilizing these complexes. Arsenic species were separated on an anion-exchange column and were analyzed by high-performance liquid chromatography-inductively coupled argon plasma mass spectrometry (HPLC-ICP MS). As(GS)(3) and CH(3)As(GS)(2) were unstable in bile and were hydrolyzed to iAs(III) and monomethylarsonous acid (MMA(III)) in the absence of GSH. As(GS)(3) appeared to be stable in the presence of 10mM GSH. Exogenously added GSH also stabilized CH(3)As(GS)(2) in bile at the concentrations of 5mM or higher. It has been suggested that trivalent arsenicals, especially MMA(III), are more toxic than corresponding pentavalent ones. These results suggest that GSH plays an important role in preventing hydrolysis of As-GSH complexes and the generation of well-known toxic trivalent arsenicals.     

2(或3)-甲基及2(或3)-(N-哌啶甲(扌牚))-酪氨酸的合成

交感神经的兴奋导致血压升高,而去甲肾上腺素是传递交感神经兴奋的化学介质.去甲肾上腺素系从酪氨酸在体内经过一系列生化反应而得,若干与酪氨酸代谢产物有关的类似物如α-甲基儿茶酚丙氨酸(Ⅰ)、α-甲基间酪氨酸(Ⅱ)等在动物试验中有明显的生理活性,临床上亦具有明显的降压作用.作者拟从对抗去甲肾上腺素的形成出发,合成若干酪氨酸的类似物,以寻找降低血压药物.从酪氨酸变成去甲肾上腺素的代谢     

Differences in the cellular response and signaling pathways of cisplatin and BBR3464 ([[trans-PtCl(NH3)(2)]2mu-(trans-Pt(NH3)(2)(H2N(CH2)(6)-NH2)2)]4+) influenced by copper homeostasis

[[trans-PtCl(NH(3))(2)](2)mu-(trans-Pt(NH(3))(2)(H(2)N(CH(2))(6)-NH(2))(2))](4+) (BBR3464) is a cationic trinuclear platinum drug that is being evaluated in phase II clinical trials for treatment of lung and ovarian cancers. The structure and DNA binding profile of BBR3464 is different from drugs commonly used clinically. It is of great interest to evaluate the difference between the mechanisms of uptake employed by BBR3464 and cisplatin (c-DDP), as altered uptake may explain chemoresistance. Using transfected cell lines, we show that both c-DDP and BBR3464 use the copper transporter hCTR1 to enter cells and to a lesser extent, the ATP7B transporter to exit cells. Copper influenced c-DDP and BBR3464 uptake similarly; it increased the c-DDP and BBR3464 uptake in ovarian (A2780) and colorectal (HCT116) carcinoma cell lines as detected by ICP-OES. However, the effects of copper on c-DDP- and BBR3464-mediated cytotoxicity differed. Copper decreased c-DDP-induced apoptosis, caspase-3/7 activation, p53 induction and PARP cleavage in cancer cell lines. In contrast, copper increased BBR3464-induced apoptosis, and had little effect on caspase activation, PARP cleavage, and p53 induction. It was concluded that BBR3464 employs mechanisms of intracellular action distinct from c-DDP. Although these drugs use the same cellular transporters (hCTR1 and ATP7B) for influx and efflux, downstream effects are different for the two drugs. These experiments illustrate fundamental differences in the mechanisms of action between cisplatin and the novel Pt-based drug BBR3464.     

Long-lasting antinociceptive effects of a novel dynorphin analogue, Tyr-D-Ala-Phe-Leu-Arg psi (CH(2)NH) Arg-NH(2), in mice

Tyr-D-Ala-Phe-Leu-Arg psi (CH(2)NH) Arg-NH(2) (SK-9709) is a dynorphin derivative in which the peptide bond was replaced with a psi (CH(2)NH) bond. In the present study, the antinociceptive effects of SK-9709 were determined in an acetic acid-induced writhing test and a hot-plate test. In the acetic acid-induced writhing test, significant antinociceptive effects were observed after subcutaneous (s.c.), intracerebroventricular (i.c.v.) and intrathecal (i.t.) injection of SK-9709, with maximal effects at 120, 30 and 15 min, respectively. The antinociceptive effects were dose-dependent and ED(50) values (range of 95% confidence limits) after s.c., i.c.v. and i.t. injection were 1.36 (0.61 - 3.02) micromol kg(-1), 2.11 (1.18 - 3.79) and 0.79 (0.61 - 1.03) nmol per mouse, respectively. The effects of SK-9709 (s.c., i.c.v. and i.t.) were reversed by the opioid receptor antagonist naloxone (1.36 micromol kg(-1), s.c.). The effects of SK-9709 (s.c.) were also reversed by the selective mu-opioid receptor antagonist beta-funaltrexamine (4.7 nmol per mouse, i.c.v.), and kappa-opioid receptor antagonist nor-binaltorphimine (4.9 nmol per mouse, i.t.). In the hot-plate test, the antinociceptive effect of SK-9709 (s.c., i.c.v. and i.t.) was also dose-dependent with the maximal peak effect at 120, 15 and 15 min similarly to the acetic acid-induced writhing test. The antinociceptive effects were dose-dependent and ED(50) values (range of 95% confidence limits) after s.c., i.c.v. and i.t. injection were 39.1 (5.4 - 283.0) micromol kg(-1), 6.5 (4.0 - 10.7) and 7.4 (5.0 - 11.0) nmol per mouse, respectively. These findings indicated that systemically administered SK-9709 produced long-lasting antinociceptive effects and these effects were mediated by both supra-spinal mu- and spinal kappa-opioid receptors.     

2-(2-(3-(2-(7-氯-2-喹啉基)乙烯基)苯基)-3-氧代丙基)苯基丙醇的合成工艺

目的对2-(2-(3-(2-(7-氯-2-喹啉基)乙烯基)苯基-3-氧代丙基)苯基)丙醇的合成工艺进行研究。方法以间氰基苯甲醛和邻甲基苯乙酮分别作为起始原料,经过缩合、格氏反应、羟基保护、羟甲基反应、卤化反应,缩合得到最终目标产物。结果总收率为质量分数47.5%。结论该工艺原料易得,降低了制备成本、简化了反应操作条件、提高了产率,更适合工业化生产。     

Experimental study of mercury transfer between artificially contaminated sediment (CH3HgCl) and macrophytes (Elodea densa)

The quantification of metal transfer routes from a natural sediment enriched with methylmercury (4 mg · Hg kg⁻¹ fresh weight) to Elodea densa, shows a high mercury accumulation in the plant organs (leaves, stems and roots). The experimental approach developed shows that, in the long term (28 days), root absorption of the organic compound (direct route) represents the dominating vector of metal accumulation in the plant, the leaves being the principal organ for storage. Two mechanisms, far less important from a quantitative point of view, are superimposed in this direct transfer: contamination by the water, linked to the releasing phenomenon at the interface ‘water-sediment’, during the initial exposure phase (4 days), and inter-plant transfers resulting from decontamination processes, acting together with direct metal accumulation in the E. densa.     

Orphanin FQ/nociceptin and [Phe(1)Psi(CH(2)-NH)Gly(2)] nociceptin(1-13)-NH(2) stimulate gastric motor function in anaesthetized rats

Orphanin FQ/nociceptin (OFQ/N) is a preferred endogenous ligand for the orphan opioid receptor-like-1 receptor. This peptide has been reported to increase intestinal, but not gastric, motor activity. In the present study, OFQ/N (0.6-60 nmol kg(-1) i.v.) increased intragastric pressure and antral contractility and, as expected, decreased blood pressure in anaesthetized rats. The gastric motor effects of OFQ/N (6 nmol kg(-1)) were not affected by inhibition of nitric oxide synthase or opioid receptor blockade. OFQ/N (6 nmol kg(-1)) evoked gastric motor increases and hypotension were not affected by prior administration of its derivative [Phe(1)Psi(CH(2)-NH)Gly(2)]nociceptin-(1-13)-NH(2) unless the pseudopepotide was administered shortly (5 min) prior to OFQ/N. This putative antagonist (6-300 nmol kg(-1)) alone increased antral motility with approximately 100 fold lower potency than OFQ/N. Neither bilateral vagotomy nor spinal cord transection altered OFQ/N-evoked increases in intragastric pressure and antral contractility. In conclusion, OFQ/N induces gastric motor excitation in addition to its known effects to increase intestinal motility. The gastric responses to OFQ/N are not dependent on 'classical' opioid receptor activation or nitric oxide, similar to the case for the intestines. The primary site of action of OFQ/N on the stomach is probably via enteric nerves, since central descending vagal or sympathetic pathways are not necessary for OFQ/N to increase gastric motility. The gastric motor effects of the derivative [Phe(1)Psi(CH(2)-NH)Gly(2)]nociceptin-(1-13)-NH(2) are similar to OFQ/N, although with lower potency. The effects of the derivative as a partial agonist or antagonist in different experimental paradigms may reflect tissue OFQ/N receptor reserve.     

Localization of mercury in CNS of the rat. II. Intraperitoneal injection of methylmercuric chloride (CH3HgCl) and mercuric chloride (HgCl2)

The autometallographic method has been used to determine the precise localization of mercury in the brain and spinal cord of adult Wistar rats which had been treated with repeated ip injections of methylmercuric chloride (CH3HgCl; 0.2 to 10.0 mg) or mercuric chloride (HgCl2; 0.2 to 10.0 mg). The distribution of mercury was uneven following administration of HgCl2, while it was fairly homogeneous following CH3HgCl. With both compounds, however, heavy deposits of mercury were present in the motor nuclei of rhombencephalon. In contrast, cerebellar Purkinje cells, Golgi cells, and Golgi epithelial cells only contained mercury in sections from rats exposed to CH3HgCl. In cerebral sections from rats exposed to CH3HgCl, staining intensity in cortical cells varied among the layers, being greatest in laminae III, V, and VI. On the other hand, sections from rats exposed to HgCl2 showed only staining in scattered cells of lamina VI. Following administration of either compound, mercury was detected in the gray matter of the spinal cord mercury. Particularly large deposits were present in the anterior horn motoneurons. At the cellular level, the heaviest staining intensity was seen in neurons, although the cytoplasm of glia and ependymal cells also showed significant deposits in sections from rats exposed to CH3HgCl. In HgCl2-treated rats, the largest accumulations of mercury were seen in the neurons. The ependymal cells were stained to a lesser extent, while glia were devoid of mercury. Ultrastructurally, mercury deposits were located exclusively in lysosomes. The present results demonstrate that the pattern of mercury distribution and its staining intensity in individual cells in the rat CNS are dependent upon the chemical structure of the compound and the duration of its administration.     

Ca2+ permeability of the (alpha4)3(beta2)2 stoichiometry greatly exceeds that of (alpha4)2(beta2)3 human acetylcholine receptors

Human alpha4beta2 nicotinic acetylcholine receptors (AChRs) expressed in Xenopus laevis oocytes or transfected cell lines are present as a mixture of two stoichiometries, (alpha4)2(beta2)3 and (alpha4)3(beta2)2, which differ depending on whether a beta2 or alpha4 subunit occupies the accessory subunit position corresponding to beta1 subunits of muscle AChRs. Pure populations of each stoichiometry can be expressed in oocytes by combining a linked pair of alpha4 and beta2 with free beta2 to produce the (alpha4)2(beta2)3 stoichiometry or with free alpha4 to produce the (alpha4)3(beta2)2 stoichiometry. We show that the (alpha4)3(beta2)2 stoichiometry and the (alpha4)2(beta2)2beta3 and (alpha4)2(beta2)2alpha5 subtypes in which beta3 or alpha5occupy the accessory positions have much higher permeability to Ca2+ than does (alpha4)2(beta2)3 and suggest that this could be physiologically significant in triggering signaling cascades if this stoichiometry or these subtypes were found in vivo. We show that Ca2+ permeability is determined by charged amino acids at the extracellular end of the M2 transmembrane domain, which could form a ring of amino acids at the outer end of the cation channel. Alpha4, alpha5, and beta3 subunits all have a homologous glutamate in M2 that contributes to high Ca2+ permeability, whereas beta2 has a lysine at this position. Subunit combinations or single amino acids changes at this ring that have all negative charges or a mixture of positive and negative charged amino acids are permeable to Ca2+. All positive charges in the ring prevent Ca2+ permeability. Increasing the proportion of negative charges is associated with increasing permeability to Ca2+.     

(2S,3R)-1-二甲氨基-3-(3-甲氧基苯基)-2-甲基戊-3-醇的合成工艺研究

目的 对(2S,3R)- 1-二甲氨基-3-(3-甲氧基苯基)-2-甲基戊-3-醇合成工艺进行研究.方法 以3-戊酮为起始原料,经Mannich反应、手性拆分、Grignard反应等步骤合成(2S,3R)-1-二甲氨基-3-(3-甲氧基苯基)-2-甲基戊-3-醇,并对化学拆分进行工艺优化.结果 合成(2S,3R)-1...