黑曲霉原生质体诱变选育果胶酶高产菌株

通过UV和NTG诱变筛选获得了2株高产果胶酶突变株。以果胶酶产生菌黑曲霉EIM6为诱变材料,采用1．5％的溶壁酶和1．5％的纤维素酶处理其对教生长期菌丝体2h获得高质量的原生质体。采用UV25S或50μg／mL NTG诱变30min,构建原生质体突变库,经刚果红果胶平板筛选获得果胶酶突变株,通过液体深层培养复筛获得高产突变株EIM6-U11、EIM6-N5,酶活力分别从46598．08、46598．08U／mL提高至68596．57、68879．56U／mL,分别提高了47．21％、47．82％。连续8次传代经发酵测酶活力表明高产突变株EIM6-U11、EIM6-N5具有较高的遗传稳定性。     

汉防己甲素联合顺铂对乳腺癌细胞的作用

目的:汉防己甲素和顺铂联合作用乳腺癌细胞,来提高癌细胞对顺铂的敏感性.方法:运用原子力显微镜对乳腺癌细胞表面的超微结构进行表征;MTr法和流式细胞术检测细胞的生长抑制率和细胞周期变化.结果:顺铂和汉防己甲素分别作用乳腺癌细胞48h IC50值为26.33μmoL/l和5.6μmok/l;联合用药组的IC50值为汉防己甲素2.5μmol/L和顺铂13.32μmol/l,在低浓度的联合用药作用乳腺癌细胞24h细胞膜表面结构被破坏,产生孔洞,作用48h被严重破坏使细胞周期在S比例增加为51.7%±0.30%.结论:提高了癌细胞对抗癌药物的敏感性,联合用药通过改变了细胞膜的结构对癌细胞进行有效杀伤,抑制肿瘤细胞生长.     

以肠道外症状为首发表现的结肠癌47例临床分析

目的:分析以肠道外症状为首发表现的结肠癌临床特征,旨在提高结肠癌诊治水平。方法:收集我院1994年1月至2008年1月间以肠道外症状为首发表现的结肠癌47例,对其临床特点进行回顾性分析。结果:47例以肠道外症状为首发表现的结肠癌中位发病年龄为65岁;贫血症状多见,占78.7%(37/47),长期低热3例,肝转移瘤4例,肺转移瘤2例,皮肌炎1例;肿瘤多发生于右半结肠,占74.5%(35/47);病理类型:乳头状腺癌为主,占61.7%(29/47);Dukes分期:B期占44.7%(21/47),C期占42.6%(20/47);结肠镜是重要诊断方法,结肠镜与钡灌肠有互补优势;手术是主要治疗手段,综合治疗可延长患者生存期。结论:以肠道外症状为首发表现的结肠癌以贫血多见,病变多位于右半结肠,结肠镜是主要确诊方法,以手术为主的综合治疗可改善患者预后。     

以肠道外症状为首发表现的结肠癌47例临床分析

目的:分析以肠道外症状为首发表现的结肠癌临床特征,旨在提高结肠癌诊治水平.方法:收集我院1994年1月至2008年1月间以肠道外症状为首发表现的结肠癌47例,对其临床特点进行回顾性分析.结果:47例以肠道外症状为首发表现的结肠癌中位发病年龄为65岁;贫血症状多见,占78.7％(37/47),长期低热3例,肝转移瘤4例,肺转移瘤2例,皮肌炎1例;肿瘤多发生于右半结肠,占74.5％(35/47);病理类型:乳头状腺癌为主,占61.7％(29/47);Dukes分期:B期占44.7％(21/47),C期占42.6％(20/47);结肠镜是重要诊断方法,结肠镜与钡灌肠有互补优势;手术是主要治疗手段,综合治疗可延长患者生存期.结论:以肠道外症状为首发表现的结肠癌以贫血多见,病变多位于右半结肠,结肠镜是主要确诊方法,以手术为主的综合治疗可改善患者预后.     

The composition and timing of flower odour emission by wild <Emphasis Type="Italic">Petunia axillaris</Emphasis> coincide with the antennal perception and nocturnal activity of the pollinator <Emphasis Type="Italic">Manduca sexta</Emphasis>

In the genus Petunia, distinct pollination syndromes may have evolved in association with bee-visitation (P. integrifolia spp.) or hawk moth-visitation (P. axillaris spp). We investigated the extent of congruence between floral fragrance and olfactory perception of the hawk moth Manduca sexta. Hawk moth pollinated P. axillaris releases high levels of several compounds compared to the bee-pollinated P. integrifolia that releases benzaldehyde almost exclusively. The three dominating compounds in P. axillaris were benzaldehyde, benzyl alcohol and methyl benzoate. In P. axillaris, benzenoids showed a circadian rhythm with an emission peak at night, which was absent from P. integrifolia. These characters were highly conserved among different P. axillaris subspecies and P. axillaris accessions, with some differences in fragrance composition. Electroantennogram (EAG) recordings using flower-blends of different wild Petunia species on female M. sexta antennae showed that P. axillaris odours elicited stronger responses than P. integrifolia odours. EAG responses were highest to the three dominating compounds in the P. axillaris flower odours. Further, EAG responses to odour-samples collected from P. axillaris flowers confirmed that odours collected at night evoked stronger responses from M. sexta than odours collected during the day. These results show that timing of odour emissions by P. axillaris is in tune with nocturnal hawk moth activity and that flower-volatile composition is adapted to the antennal perception of these pollinators.     

Distinct contributions of T1R2 and T1R3 taste receptor subunits to the detection of sweet stimuli

Animals utilize hundreds of distinct G protein-coupled receptor (GPCR)-type chemosensory receptors to detect a diverse array of chemical signals in their environment, including odors, pheromones, and tastants. However, the molecular mechanisms by which these receptors selectively interact with their cognate ligands remain poorly understood. There is growing evidence that many chemosensory receptors exist in multimeric complexes, though little is known about the relative contributions of individual subunits to receptor functions. Here, we report that each of the two subunits in the heteromeric T1R2:T1R3 sweet taste receptor binds sweet stimuli though with distinct affinities and conformational changes. Furthermore, ligand affinities for T1R3 are drastically reduced by the introduction of a single amino acid change associated with decreased sweet taste sensitivity in behaving mice. Thus, individual T1R subunits increase the receptive range of the sweet taste receptor, offering a functional mechanism for phenotypic variations in sweet taste.     

Kinetics and comparative reactivity of human class I and class IIb histone deacetylases

Histone deacetylase (HDAC) enzymes modulate gene expression through the deacetylation of acetylated lysine residues on histone proteins. They operate in biological systems as part of multiprotein corepressor complexes. To understand the reactivity of isolated HDACs and the contribution of cofactor binding to reactivity, the reaction kinetics of isolated, recombinant human HDACs 1, 2, 3, 6, 8, and 10 were measured using a novel, continuous protease-coupled enzyme assay. Values of k(cat) and k(cat)/K(m) and the pH dependence of these values were determined for the reactions of each isozyme with acetyl-Gly-Ala-(N(epsilon)-acetyl-Lys)-AMC. Values of k(cat) spanned the range of 0.006-2.8 s(-1), and k(cat)/K(m) values ranged from 60 to 110000 M(-1) s(-1). The pH profiles for both k(cat) and k(cat)/K(m) were bell-shaped for all of the HDAC isozymes, with pH optima at approximately pH 8. Values of K(i) for the inhibitor trichostatin A were determined for each isozyme. The inhibition constants were generally similar for all HDAC isozymes, except that the value for HDAC8 was significantly higher than that for the other isozymes. The reaction of HDAC8 with an alternative substrate was performed to assess the steric requirements of the HDAC8 active site, and the effect of phosphorylation on HDAC1 activity was examined. The results are discussed in terms of the biological roles of the HDAC enzymes and the proposed reaction mechanism of acetyllysine hydrolysis by these enzymes.     

Determinants of antileukemia effects of allogeneic NK cells

In HLA-nonidentical bone marrow transplantation, we studied the characteristics of donor NK cells, recipient leukemia cells, and the cytokine environment that predict the antileukemia effects of allogeneic NK cells. We found that the risk of relapse in pediatric patients with hematologic malignancies was best predicted by a model taking into consideration the presence of inhibitory killer cell Ig-like receptors (KIRs) on the donor's NK cells and the absence of corresponding KIR ligand in the recipient's HLA repertoire (a receptor-ligand model). The risk of relapse was prognosticated less precisely by the Perugia donor-recipient KIR ligand-ligand mismatch model or by a natural cytotoxicity model. In contrast to the ligand-ligand model, we found that the new receptor-ligand model was accurate when analysis was applied to patients with lymphoid malignancy. These findings corroborate our observations that the recipient's KIR repertoire, which was derived from highly purified, HLA-disparate CD34+ cells, resumed a donor-specific pattern within 3 mo of transplantation, but did not correlate evidently with the donor or recipient ligand repertoire. In an in vitro assay and an in vivo mouse model, human NK cell cytotoxicity toward human leukemia cells with 11q23 chromosomal rearrangement increased with the number of receptor-ligand mismatch pairs or prestimulation with IL-12 and IL-18. These findings provide new insights into the determinants of antileukemia effects of allogeneic NK cells and therapeutic strategies.