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271.
The genetic regulation of programmed cell death (PCD) is well characterized in animal systems, but largely unresolved in plants.
This research was designed to identify plant genes that can suppress PCD triggered in plants by Fumonisin B1 (FB1). Agrobacterium rhizogenes was used to transform individual members of a cDNA library into tomato roots, which were then screened for resistance to
FB1. Cellular changes elicited during FB1-induced PCD include chromatin condensation, fragmentation into pycnotic DNA bodies,
TUNEL positive reactions, ROS accumulation, and eventual loss of membrane integrity. Several cDNA library members collectively
overexpressed in a transformed root population revealed PCD suppressive action and were recovered by PCR. One of the FB1 suppressive
genes was homologous to metallothionein, and shared sequence homology to the animal ortholog reported to suppress PCD through interference with formation or activity
of reactive oxygen species (ROS). The metallothionein recovered in this screen suppressed ROS accumulation in FB1-treated
roots and prevented symptoms of PCD. Anti-PCD genes recovered by this screen represent potential sources of resistance to
PCD-dependent plant diseases, while the screen should be useful to identify genes capable of suppressing PCD triggered by
other effectors, including those expressed by root pathogens during infection. 相似文献
272.
肺癌中金属硫蛋白的表达及其与细胞增殖、凋亡的关系 总被引:4,自引:0,他引:4
目的 探讨肺癌中金属硫蛋白 (Metallothionein ,MT)的表达及其与临床病理学参数、Ki 6 7、P5 3和凋亡的关系。方法 免疫组织化学SP法对 5 6例石蜡包埋的肺癌组织分别进行MT、Ki 6 7、P5 3蛋白的检测并对 11例石蜡包埋的癌旁正常支气管组织进行MT蛋白的检测。TUNEL法对 19例MT蛋白阴性和弱阳性表达及 2 8例MT蛋白中等阳性和强阳性表达的肺癌标本进行原位细胞凋亡检测。结果 MT蛋白在肺癌中的表达高于其在正常支气管组织中的表达 ,但无显著差异 (P =0 5 6 1) ;肺癌中MT蛋白的表达与患者的性别、肿瘤的组织学类型及分化程度有关 (均为P <0 0 5 ) ,与患者的年龄、肿瘤大小、TNM分期和淋巴结转移与否无关 (均为P >0 0 5 ) ,与Ki 6 7蛋白的表达呈正相关 (r=0 2 78,P <0 0 5 ) ,与凋亡呈负相关 (r=- 0 319,P <0 0 5 ) ,与P5 3蛋白的表达无显著相关 (r=0 16 7,P >0 0 5 )。结论 MT蛋白的表达与肺癌的分化程度、Ki 6 7及凋亡显著相关 ,MT可作为判断肺癌细胞分化程度、增殖活性及凋亡等的指标。 相似文献
273.
金属硫蛋白(metallothionein,MT)是一类低分子量、富含半胱氨酸的金属结合蛋白.MT几乎广泛分布于所有生物,包括哺乳动物、两栖动物、鱼、植物、真菌和蓝细菌.不同生物金属硫蛋白理化特性和其氨基酸序列及中心片段的比较研究,对研究MT的结构和生物功能及生物的分子进化提供重要依据.哺乳动物MT研究较多,爬行动物鳖MT的研究尚属空白,本文报道鳖肝的金属硫蛋白.中华鳖 (Pelodiscus sinensis) 分别经皮下注射ZnSO4、CuSO4和CdCl2 溶液诱导后,取乙醇沉淀的肝脏无细胞提取液再经Sephadex G-50、DEAE-SepharoseCL-6B 及SephadexG-25凝胶过滤和离子交换柱层析分离,自鳖肝脏中分别获得Zn-MT、Cu-MT和Cd-MT,未经诱导的鳖肝脏中无MT.质谱和HPLC分析其分子量约为6 300 dalton.根据氨基酸组成分析,鳖肝脏MT含61个氨基酸残基,其中MT的典型氨基酸Cys含量占17%.Lys、Glu和Asp含量较高,而芳香族氨基酸和组氨酸含量极低.从紫外光谱特性分析,Zn-MT、Cu-MT、Cd-MT紫外吸收肩分别在220 nm、270 nm和250 nm.表明确为鳖肝脏MT.从氨基酸残基数和分子量看,鳖肝脏MT与哺乳动物MT类似;而从氨基酸组成和结合金属离子的量看,又与低等生物蚯蚓及酵母菌的MT类似.鳖MT的特性介于哺乳动物MT与低等生物MT之间,体现了鳖这种生物进化的特点. 相似文献
274.
金属硫蛋白 (Metallothionein ,MT)基因家族的三种亚型MT1、MT2和MT3在脑组织中均有表达 ,它们在脑组织中具有重要的神经生理和神经调节功能 ,其中MT3可能是老年性痴呆 (Alzheimer′sdisease ,AD)潜在的病因学因子。本研究以快速老化鼠SAMP10脑组织总RNA为模板 ,通过RT PCR扩增出MT1的编码区序列和MT33′非翻译区序列的cDNA片段。将两个片段克隆到pGEM○R TEasy载体上 ,经测序分析确定两个cDNA片段分别为MT1编码区序列和MT33′非翻译区序列。Northern杂交结果表明 ,MT1和MT3mRNA在 2、4、6、8四个月龄的SAMP10和SAMR1脑组织中均有表达。同时建立了MTmRNA的定量条件 ,为进一步研究MTmRNA增龄性变化规律及与老年性痴呆病因学的关系奠定了基础。 相似文献
275.
Amalia Muñoz Frank Laib David H. Petering C. F. Shaw III 《Journal of biological inorganic chemistry》1999,4(4):495-507
The synthetic peptide fragment containing residues 49–61 of rabbit liver metallothionein II (MT-II) (Ac-Ile-Cys-Lys-Gly-Ala-Ser-Asp-Lys-Cys-Ser-Cys-Cys-Ala-COOH),
which includes the only sequential four cysteines bound to the same metal ion in Cd7MT, forms a stable, monomeric Cd-peptide complex with 1 : 1 stoichiometry (Cd:peptide) via Cd-thiolate interactions. This
represents the first synthesis of a single metal-binding site of MT independent of the domains. The 111Cd NMR chemical shift at 716 ppm indicates that the 111Cd2+ in the metal site is terminally coordinated to four side-chain thiolates of the cysteine residues. The pH of half dissociation
for this Cd-peptide derivative, ∼3.3, demonstrates an affinity similar to that for Cd7MT. Molecular mechanics calculations show that the thermodynamically most stable folding for this isolated Cd2+ center has the same counterclockwise chirality (Λ or S) observed in the native holo-protein. These properties are consistent with its proposed role as a nucleation center for cadmium-induced
protein folding. However, the kinetic reactivity of the CdS4 structure toward 5,5′-dithiobis(5-nitrobenzoate) (DTNB) and EDTA is greatly increased compared to the complete cluster (α-domain
or holo-protein). The rate law for the reaction with DTNB is rate=(k
uf +k
1,f +k
2,f [DTNB])[peptide], where k
uf=0.15 s–1, k
1,f=2.59×10–3 s–1, and k
2,f=0.88 M–1 s–1. The ultrafast step (uf), observable only by stopped-flow measurement, is unprecedented for mammalian (M7MT) and crustacean (M6MT) holo-proteins or the isolated domains. The accommodation of other metal ions by the peptide indicates a rich coordination
chemistry, including stoichiometries of M-peptide for Hg2+, Cd2+, and Zn2+, M2-peptide for Hg2+ and Au+, and (Et3PAu)2-peptide.
Received: 9 December 1998 / Accepted: 20 May 1999 相似文献
276.
Regional distribution of metallothionein, zinc, and copper in the brain of different strains of rats 总被引:4,自引:0,他引:4
The regional brain distribution of metallothionein (MT), zinc, and copper in the brain was determined in nine anatomical regions
(olfactory bulb, cortex, corpus striatum, hippocampus, thalamus plus hypothalamus, pons plus medulla oblongata, cerebellum,
midbrain, and white matter) and was compared between two different strains of rat (Sprague-Dawley [SD] and Lewis). No significant
difference was observed in the whole-brain MT level between the two strains (17.8 ± 3.4 μg/g in SD rats and 20.3 ± 2.3 μg/g
in Lewis rats). In SD rats, however, MT was more highly expressed in the white matter than in the other regions studied. In
contrast, MT concentration was highest in the cortex and lowest in the olfactory bulb in Lewis rats. The MT levels in the
cortex, corpus striatum, hippocampus, and thalamus plus hypothalamus were significantly lower in SD rats than in Lewis rats.
In both strains, the olfactory bulb contained markedly higher levels of both zinc and copper than the other regions (27.9
±6.8 μg/g zinc in SD rats and 27.6 ± 6.9 μg/g zinc in Lewis rats, and 5.2 ± 1.5 μg/g copper in SD rats and 11.1 ± 4.8 μg/g
copper in Lewis rats). The next high-est zinc levels were seen in the hippocampus, whereas the next highest copper levels
were in the corpus striatum in both SD and Lewis rats. The high levels of zinc and copper in the olfactory bulb were not accompanied
by concomitant high MT concentrations. These results indicate that the strain of rat as well as the anatomical brain region
should be taken into account in MT and metal distribution studies. However, the highest concentrations of zinc and copper
in olfactory bulb were common to both SD and Lewis rats. The discrepancy between MT and the metal levels in olfactory bulb
suggests a role for other proteins in addition to MT in the homeostatic control of zinc and copper. 相似文献
277.
278.
Sen-Shyong Jeng Jih-Terng Wang Lian-Tien Sun 《Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology》1999,122(4):557
Extraordinarily high concentrations of zinc (300–500 μg/(g fresh tissue)) are often found in the digestive tract tissue of common carp Cyprinus carpio, and high zinc concentrations (typically >100 μg/(g fresh tissue)) are also found in the kidney, gill, skeletal tissues, and spleen. In the present study, we found that only about 40% of the zinc in the digestive tract tissue of common carp could be extracted by water. However, 0.01 M citrate buffer, pH 6.2 could extract over 90% of the zinc. Subcellular zinc distribution in the tissues of common carp, grass carp Ctenopharyngodon idellus, silver carp Aristichthys nobilis, and tilapia Oreochromis aureus were compared. It was found that zinc concentrations in the cytosol, microsomal and mitochondrial fractions were approximately the same for all four species, being only about 16, 5, and 4 μg/(g fresh tissue), respectively. However, zinc concentrations in the nuclei/cell debris fraction of common carp tissue were much higher (46–370 μg/(g fresh tissue)) than the <14 μg/(g fresh tissue) found in the other three species. From this we conclude that neither water-soluble zinc proteins nor metallothionein could account for the high levels of zinc found in common carp tissues. A preliminary biochemical investigation suggests that the main zinc binding substance(s) in the nuclei/cell debris fraction of digestive tract tissue of common carp was probably a membrane protein(s). 相似文献
279.
280.
Metallothioneins (MTs) are a ubiquitous low-molecular weight, cysteine rich proteins with a high affinity for metal ions. The expression and induction of MTs have been associated with protection against DNA damage, oxidative stress, and apoptosis. Our past research had shown that p53 is an important factor in metal regulation of MTs. The present study was undertaken to explore further the interrelationship between p53 and MTs. We investigated whether silencing of p53 could affect expression pattern of basal and copper induced metallothioneins. The silencing of wild-type p53 (wt-p53) in epithelial breast cancer MCF7 cells affected the basal level of MT-2A RNA, whereas the levels of MT-1A and MT-1X RNA remained largely unchanged. The expression of MT-3 was undetectable in MCF7 with either functional or silenced p53. MCF7 cells with silenced wt-p53 failed to upregulate MT-2A in response to copper and showed a reduced sensitivity toward copper induced cell apoptotic death. Similarly in MCF7-E6 and MDA-MB-231 cells, the presence of inactive/mutated p53 halted MT-1A and MT-2A gene expression in response to copper. Constitutive expression of MT-3 RNA was detectable in the presence of mutated p53 (mtp53). Transient transfection of MDA-MB-231 cells with wt-p53 enabled copper induced upregulation of both MT-1A and MT-2A but not basal level of MT-2A, MT-1E, MT-1X and MT-3. Inactivation of p53 in HepG2 cells amplified the basal expression of studied MT isoforms, including MT-3, as well as copper-induced mRNA expression of MTs except MT-1H and MT-3. Presented data demonstrate a direct relation between p53 and MT-1A and MT-2A and they also indicate that wt-p53 might be a negative regulator of MT-3 in epithelial cancer cells. 相似文献