粘多糖贮积症Ⅱ型患者IDS基因的2个新突变

为了研究粘多糖贮积症II型(MPS Ⅱ)患者发病的分子遗传学机制, 采用PCR扩增艾杜糖-2-硫酸酯酶(IDS)基因突变热点区(外显子2、3、5、7、8和9)、DNA测序分析和限制性内切酶图谱分析的方法, 对2个粘多糖贮积症Ⅱ型家系进行了遗传突变分析。结果表明, 2个家系患者的IDS 基因分别出现IVS 6-1g→a和c.1587~1588 ins T 2个新突变。前者属于单碱基替换, 位于内含子6的3′端剪接位点, 导致跨外显子剪接; 后者属于插入突变, 插入点位于外显子9的cDNA 1,587和1,588碱基之间, 是迄今为止报道的人类IDS基因插入突变中最接近肽链末端的突变, 导致移码突变和转录提前终止。经限制性酶切分析, 证实2个家系中的患者母亲是突变基因的携带者, 符合该病X染色体隐性遗传的规律。另外,在对随机抽取的50名正常人及另外6名不相关的粘多糖病人的测序分析中, 未检测到这2个突变, 说明不是多态性。对于筛查所得的2个新突变是否是患者的致病原因, 尚需进一步证实。     

中国人Ⅱ型MPS家系IDS基因的一种新突变的鉴定

为了研究粘多糖贮积症Ⅱ型(MPSⅡ)患者发病的分子遗传学机制, 以便为今后的产前基因诊断等创造必要的前提条件, 文章先采用尿糖胺聚糖(GAGs)定性检测法对疑似MPSⅡ的先证者进行初诊, 然后采用PCR、PCR 产物直接测序法对先证者及其家系成员进行突变检测。在检出IDS基因c.876del2新突变后, 对随机采集的120例正常对照和其他非II型MPS患者包括MPSⅠ, Ⅳ, Ⅵ三型的病人共15例的IDS基因exon 6进行序列分析, 同时采用不同物种突变点序列的保守性分析法, 以及直接测定患儿及其家庭相关成员IDS酶活性的方法对该新突变进行致病性分析。结果显示: 先证者尿检呈强阳性(GAGs +++); 其IDS基因exon 6编码区内存在c.876-877 del TC新缺失突变, 为半合子突变, 而其母、其姐为杂合突变; 正常对照和其他非II型MPS患者的IDS基因exon 6的检测结果均未发现该突变; 不同物种氨基酸序列的同源性比对显示: c.876-877 del TC突变所在的位置即p.292-293的苯丙氨酸(F)谷氨酰胺(Q)高度保守; 酶活性测定的结果显示: 先证者的IDS酶活性仅为2.3 nmol/4 h/mL, 大大低于正常值, 而其父的为641.9 nmol/4 h/mL, 其母的血浆酶活性为95.8 nmol/ 4h/mL, 其姐的为103.2 nmol/4 h/mL。说明所发现的c.876-877 del TC缺失移码突变是一种新的病理性突变, 是该MPSⅡ患儿发病的根本内因。     

Three-dimensional structure of iminodisuccinate epimerase defines the fold of the MmgE/PrpD protein family

Iminodisuccinate (IDS) epimerase catalyzes the epimerisation of R,R-, S,S- and R,S- iminodisuccinate, one step in the biodegradation of the chelating agent iminodisuccinate by Agrobacterium tumefaciens BY6. The enzyme is a member of the MmgE/PrpD protein family, a diverse and little characterized class of proteins of prokaryotic and eukaryotic origin. IDS epimerase does not show significant overall amino acid sequence similarity to any other protein of known three-dimensional structure. The crystal structure of this novel epimerase has been determined by multi-wavelength diffraction to 1.5 A resolution using selenomethionine-substituted enzyme. In the crystal, the enzyme forms a homo-dimer, and the subunit consists of two domains. The larger domain, not consecutive in sequence and comprising residues Met1-Lys266 and Leu400-Pro446, forms a novel all alpha-helical fold with a central six-helical bundle. The second, smaller domain folds into an alpha+beta domain, related in topology to chorismate mutase by a circular permutation. IDS epimerase is thus not related in three-dimensional structure to other known epimerases. The fold of the IDS epimerase is representative for the whole MmgE/PrpD family. The putative active site is located at the interface between the two domains of the subunit, and is characterized by a positively charged surface, consistent with the binding of a highly negatively charged substrate such as iminodisuccinate. Docking experiments suggest a two-base mechanism for the epimerisation reaction.     

Cadmium inducible Fe deficiency responses observed from macro and molecular views in tobacco plants

Responses induced by Cd exposure were assessed in tobacco seedlings (Nicotiana tabacum L.) using macro and molecular indices. The 100 μM of Cd exposure reduced the total dry weight and chlorophyll index of the seedlings as much as the genuine Fe-deficiency. Concentration of Fe in the shoots decreased, whereas that in the roots increased by the Cd exposure, especially in the apoplasmic space. It is probable that Cd interferes mainly with the step of Fe-translocation from the roots to shoots and this sets the upper-part of the plant in a state of Fe-deficiency. The Cd exposure coordinately increased the expressions of the exogenous and the endogenous Fe-deficiency responsive genes, HvIDS2 _pro ::GUS, NtFRO1 and NtIRT1 in the roots. This is the first data to demonstrate the responses of Cd-inducible Fe-deficiency at a molecular level.     

A Stereoselective Carbon-Nitrogen Lyase from Ralstonia sp. SLRS7 Cleaves Two of Three Isomers of Iminodisuccinate

Following biodegradation tests according to the OECD guidelines for testing of chemicals 301F different degradation rates were observed for the three stereoisomers of iminodisuccinate (IDS). A strain was isolated from activated sludge, which used two of three isomers, R,S-IDS and S,S-IDS, as sole source of carbon, nitrogen, and energy. The isolated strain was identified by 16S-rDNA and referred to as Ralstonia sp. SLRS7. An IDS-degrading lyase was isolated from the cell-free extract. The enzyme was purified by three chromatographic steps, which included anion-exchange chromatography, hydrophobic interaction chromatography and gel filtration. The lyase catalysed the non-hydrolytic cleavage of IDS without requirement of any cofactors. Cleavage of S,S-IDS led to the formation of fumaric acid and L-aspartic acid. Interestingly R,S-IDS yielded only D-aspartic acid besides fumaric acid. R,R-IDS was not transformed. Thus, the IDS-degrading enzyme is a carbon-nitrogen lyase attacking only the asymmetric carbon atom exhibiting the S-configuration. Besides S,S-IDS and R,S-IDS cleavage, the lyase catalysed also the transformation of certain S,S-IDS metal complexes, namely Ca(2+)-, Mg(2+)- and Mn(2+)-IDS. The maximum enzyme activity was found at pH 8.0-8.5 and 35 degrees C. SDS-PAGE analysis revealed a single 57-kDa protein band. The native enzyme was estimated to be around 240 kDa indicating a homotetramer enzyme.