不同铅水平下紫茎泽兰细胞内铅的分布和化学形态的分析

该研究运用差速离心法和化学试剂逐步提取法,分析了重金属铅在紫茎泽兰亚细胞内的分布和主要化学形态。结果表明:随着Pb浓度的升高,紫茎泽兰的叶、根、茎中各亚细胞组分Pb含量逐渐增加;紫茎泽兰中的Pb在叶片分布于可溶性部分和细胞壁中,两者占总量的75.34%~84.63%;茎也主要分布于可溶性部分和细胞壁中,占总量的36.10%~57.14%和20.07%~36.52%;而在根中则富集于细胞壁和可溶性部分,分别占39.2%~49.78%和28.27%~37.62%,其他细胞器中的Pb含量均较少。紫茎泽兰叶中的Pb以盐酸提取态和水提取态为主,两者占总量的58.74%~73.04%;茎中的Pb以醋酸提取态和氯化钠提取态为主;而根中的Pb则以醋酸提取态和盐酸提取态占优势,两者占总量的39.15%~52.91%。     

镉在旱柳中亚细胞分布及存在的化学形态

以2个旱柳无性系幼苗为材料,通过营养液培养并结合差速离心与化学试剂提取法,分析了不同浓度Cd2+胁迫下旱柳叶和根中Cd的亚细胞分布及其存在的化学形态.结果显示,(1)随着培养介质Cd2+浓度升高,旱柳无性系幼苗叶和根中各亚细胞组分Cd含量随之增加.叶片的Cd主要富集于细胞壁、叶绿体和可溶性部分,它们的含量分别占65%～69%、14%～22%、6.8%～7.7%,仅少量Cd发现于膜部分;而根中Cd主要积累于细胞壁和可溶性部分,其中含量分别占59%～66%和14%～25%,Cd在根亚细胞组分中积累量依次为细胞壁>可溶性部分>质体>膜部分.(2)旱柳体内Cd以不同的化学形态存在,大部分为HCl(FHCl)、NaCl(FNaCl)、醋酸(HAC,FHAC)提取态,极少部分为乙醇(EtOH,FEtOH)和水提取态(Fwater),叶和根中5种Cd提取态含量依次为FHCl>FNaCl>FHAC>Fwater>FEtOH,而叶和根中HCl和NaCl提取态Cd占有比例大于30%以上.研究表明,旱柳无性系中Cd主要与蛋白质和有机酸螯合或以金属磷酸盐沉淀的形态存在,其根、叶的细胞壁和液泡在Cd忍耐与解毒中起到重要作用.     

镉在水生植物中的富集与亚细胞分布及其化学形态特征

以7种水生植物(长苞香蒲、水生美人蕉、黑藻、粉绿狐尾藻、花叶芦竹、香根鸢尾、水葫芦)为研究材料,构建生物塘系统,通过差速离心法和五步提取法,提取植物各亚细胞组分和不同化学形态的镉,并用原子吸收分光光度法测定镉含量,分析镉在水生植物体中富集特征,揭示植物对镉的耐性机制。结果表明:(1)水生植物根中镉富集量大于茎和叶;3种类型水生植物富集镉能力表现为沉水植物(粉绿狐尾藻、黑藻)浮水植物(水葫芦)挺水植物(长苞香蒲、水生美人蕉、花叶芦竹、香根鸢尾)。(2)镉在黑藻、水葫芦和花叶芦竹中的亚细胞分布量均呈现为细胞壁可溶组分原生质体线粒体,所占比例分别为37.16%~50.86%、20.69%~31.21%、10.81%~23.83%、8.15%~19.83%。(3)赋存化学形态表现为以氯化钠提取态、醋酸提取态为主,所占比例分别为29.37%~56.27%和15.06%~36.19%。研究发现,粉绿狐尾藻、水葫芦、水生美人蕉和花叶芦竹4种植物为富集镉较好的植物,而黑藻、香根鸢尾和长苞香蒲3种植物的镉富集能力相对较弱;镉主要以果胶酸盐、蛋白质结合态或吸附态存在于植物根的细胞壁和液泡中,以减弱镉对根细胞器和植物地上部分的毒害。     

铅污染下芦苇体内铅的分布和铅胁迫相关蛋白

用Pb(NO3 ) 2 10mmol/L处理芦苇幼苗 7d后 ,检测铅在其不同器官、细胞不同区隔和不同化学状态之间的分布以及铅胁迫相关蛋白。结果显示 ,受铅污染后芦苇幼苗根、地下茎、茎和叶片的铅含量增加 ,它们的大小顺序为根 >地下茎 >茎 >叶片。细胞不同部分铅含量的大小顺序为细胞间隙 >细胞壁 >液泡 >细胞质。在根部和叶片中 ,均以活性较低的醋酸可提取态铅和盐酸可提取态铅占优势。在铅胁迫下 ,从芦苇根和叶片中检测出一些铅结合蛋白。另外 ,铅除诱导芦苇合成一种新的不结合铅的蛋白质外 ,还导致一种分子量大约为 72 0 0 0的蛋白质消失。芦苇抗铅胁迫有以下几种机制 :根部比地上部分积累较多的铅 ;铅在体内形成难溶性化合物 ;铅沉淀在质外体内 ;形成铅结合蛋白质和诱导蛋白     

霞多丽苗木中镉的积累、亚细胞分布及化学存在形态

以一年生盆栽葡萄品种霞多丽(Vitis vinifera L.cv.Chardonnay)自根苗及SO4砧嫁接苗为试材,采用CdCl2和CaCl2根部灌入的方法,研究了镉在霞多丽植株内的亚细胞分布和存在形态,以及外源添加氯化钙对植株镉吸收的影响.结果表明:大部分镉积累在霞多丽自根苗及嫁接苗的地下部器官;4 mmol·L-1浓度的CdCl2处理下,镉在自根苗根及根颈部分的积累量占77.1％,在叶片中的积累量占1.4％,而嫁接苗中镉在嫁接口以下部分的积累量高达93.9％,叶片中的积累量仅占0.1％;5 mmol·L-1外源钙缓解了植株对镉的吸收积累,而10mmol ·L-1外源钙则显著增加了植株对镉的吸收积累.镉在根系和叶片中的亚细胞分布规律为细胞壁＞可溶性部分＞细胞器,且在细胞壁中积累50％以上;镉在根系中主要以氯化钠提取态存在,其次为乙酸提取态,去离子水提取态含量最少.随着镉处理浓度的增加,各提取态含量有所变化.     

铯对印度芥菜幼苗生长的影响及其亚细胞分布和化学形态

以印度芥菜为材料,用含铯(Cs+)[8.24(CK),25,50,100,200mg·L~(-1)]的Hoagland营养液培养印度芥菜种子和幼苗,采用IMAGE-J软件测定根、茎长度,通过差速离心法、化学试剂提取法分别提取幼苗根、茎、叶各亚细胞组分及不同化学形态的Cs+,并用火焰原子分光光度计测定Cs+含量,分析Cs+对幼苗生长的影响及其亚细胞分布和化学形态,进而探讨Cs+对植物的伤害机理。结果显示:(1)Cs+对印度芥菜幼苗生长具有明显的抑制作用,根、茎的EC50(相对抑制率达到50%的Cs+浓度)分别为112.09和118.42mg·L~(-1);(2)各器官中Cs+的积累量总体表现为叶根茎;Cs+在印度芥菜中的亚细胞分布呈现为可溶性组分细胞壁组分细胞器组分,三者所占比例分别为52.86%~79.19%、20.81%~45.05%和1.43%~9.00%;(3)Cs+在印度芥菜各器官中主要以无机盐和水溶态赋存,两种形态根、茎、叶占比分别达到88.02%~92.20%、97.33%~100%和95.06%~100%。研究表明:印度芥菜积累过量的Cs+可抑制其根、茎生长,导致叶片枯萎,主要是因为Cs+在印度芥菜体内大部分以无机盐态和水溶态形式存在,使Cs+在植物体内具有较强迁移能力和毒理生物有效性,更易分布到重金属的毒性敏感区(如细胞器),导致细胞器受到功能性损伤,从而使植物表现出明显中毒症状。     

不同生长期茶树对土壤中铅的吸收及体内运移特性研究

选取江苏省宜兴市阳羡茶场的新、老两个茶园进行实地试验,分析了幼年期和成年期茶树各部位中铅含量的差异,以及茶树各部位铅含量与土壤铅含量的相关性;同时通过向茶园土壤进行投加铅处理后,分析土壤Pb污染条件下茶树吸收铅的特性以及不同生长期茶树对土壤中铅的富集和运移规律。结果表明,铅在茶树各部位含量分布的一般趋势为：侧茎>老叶>主茎>侧根>主根>嫩叶,侧茎比茶树其余部位中的铅含量高出3倍以上;对于不同生长期的茶树而言,幼年期茶树嫩叶的铅含量较成年期茶树嫩叶的高。同时茶树各部位铅含量与土壤铅含量的相关性分析的结果表明,茶树根与土壤中的铅含量相关性最为显著,其次为叶,再次为茎。当土壤受到铅污染后,茶树各部位的铅含量均有所增加,其中侧根和主根中铅的增加量最为明显;随着土壤铅污染时间的延续,茶树各部位中的铅逐渐向侧茎集聚,使侧茎的含铅量在茶树各地上部分中居于最高水平。     

外源NO对Cu胁迫下番茄Cu的亚细胞分布和化学形态的影响

采用营养液培养方法,研究外源NO供体硝普钠(SNP)处理对50 μmol·L^-1Cu²⁺胁迫下番茄幼苗Cu的亚细胞分布和化学形态的影响.结果表明： Cu胁迫下,番茄幼苗的生物量和株高显著降低33.7%和23.1%,外源NO能够显著缓解这种抑制作用,但各器官中Cu的含量和累积量仍显著升高.Cu胁迫下,番茄幼苗各器官的Cu含量和累积量大小依次为根系>叶片>茎>叶柄,幼苗根系吸收的Cu向地上部的转运大幅降低,外源NO只能缓解而不能消除这种作用.外源NO可以使Cu胁迫下幼苗各器官的液泡和细胞壁中Cu含量显著上升,细胞器中Cu含量降低,从而减轻过多Cu对胞质生理生化代谢的伤害,增强组织细胞对Cu的耐性.外源NO可以提高番茄幼苗根系中醋酸提取态铜（F_HAc）、茎中氯化钠提取态铜（F_NaCl）、叶柄中F_HAc、叶片中乙醇提取态铜（F_E）和F_NaCl的含量,降低水溶态铜（F_W）的含量与比例,以降低过多铜的生物毒性.     

锌在3种乔木中的积累及其亚细胞分布和化学形态

为了探索园林木本植物对重金属锌(Zn)的积累和耐性机制,本研究以栾树(Koelreu-teria paniculata)、臭椿(Ailanthus altissima)和银杏(Ginkgo biloba)3种北京常见乔木为试验树种,通过盆栽污染模拟试验,研究不同浓度Zn处理(O、250、500、1000、2000 mg...     

Cd污染地草坪草中Cd分布特征及化学形态的研究

对种植在沈阳西郊Cd污染地上草坪草中Cd的分布及化学形态进行了分析研究。结果表明,Cd主要分布于草的根系中,而且在不同草种中的分布特征存在较大差异。有些草对土壤中的Cd无明显的富集作用,具有抗Cd能力;而有些草对Cd有较强的富集能力,通过研究不同溶剂对不同草种的浸提效能,探明了草中Cd以酸溶态为最多,约占总量的63.3%;水溶态和有机态Cd均很少,在迁移转化过程中酸溶态Cd具有较大活性,水溶态Cd随时间和温度的变化而呈一定的规律性,有机态Cd随介质极性的增强而活性加大。     

Characteristics of distribution and chemical forms of Pb in tea plant varieties

A hydroponics experiment combined with subcellular fractionation and sequential extraction was conducted to study the Pb concentration in different organs of two tea plant varieties (Longjing 43 and Yingshuang) and the Pb subcellular distribution and chemical forms in the roots of the varieties. Under Pb stress, the root system of the two varieties had different features in morphology. With the increasing concentration of Pb in culture solution, the Pb concentration in Longjing 43 young leaves increased, but that in Yingshuang' s had no significant variation. A marked difference was observed in the Pb subcellular distribution and its chemical forms in roots between the two varieties under Pb stress. In Longjing 43 roots, all subcellular fractions except soluble ones had a lower Pb concentration at low Pb stress, and all the subcellular fractions except cell wall ones had a higher Pb concentration at higher Pb stress, compared with those in Yingshuang's. In Longjing 43 roots, the HAc-extractable Pb occupied the greatest proportion, followed by NaCl-extractable Pb, HCl- and H2O- extractable Pb, and ethanol-extractable Pb; while in Yingshuang's, NaCl-extractable Pb had the greatest proportion, followed by HAc-extractable Pb, HCl- and H2O-extractable Pb, and ethanol-extractable Pb. Based on these findings, tea plant variety Yingshuang was likely to possess a higher tolerance to Pb than Longjing 43 did.     

Lead bioaccumulation,subcellular distribution and chemical form in sugarcane and its potential for phytoremediation of lead-contaminated soil

Abstract

Sugarcane is a promising species for lead (Pb) phytoextraction due to its large biomass and high tolerance toward Pb content. To understand the mechanisms involved in Pb tolerance and detoxification and its potential for phytoremediation in sugarcane, the bioaccumulation, subcellular distribution, and chemical forms of Pb in different tissues were investigated through pot cultivation sugarcane with increasing Pb concentrations in the present study. Results showed that sugarcane could tolerate high concentrations of Pb (up to 1250.0–1750.0?mg/kg); the Pb content in roots and shoots increased with increasing Pb concentration. A large amount of Pb content was stored in roots. The subcellular distribution of Pb in sugarcane revealed that the majority of Pb was bound to the cell wall. Meanwhile, the greatest amount of Pb was extracted by 2.0% acetic acid and 0.6?mol/L HCl, which indicated that most of Pb was combined with undissolved phosphate and oxalate. These results implied that the Pb formation of undissolved salts and compartmentalization in the cell wall may be a key strategy for Pb detoxicity and tolerance in sugarcane.     

Subcellular distribution and chemical forms of cadmium in Morus alba L.

Morus alba L. (mulberry) is a perennial woody tree and a species with great potential for Cd phyremediation owing to its large biomass and extensive root system. The mechanisms involved in Cd detoxification were investigated by analyzing the subcellular distribution and chemical forms of Cd in mulberry in the present study. These results indicated that 53.27–70.17% of Cd mulberry accumulated was stored in the root and only about 10% were in the leaves. Lots of the Cd was located in the cell wall of the mulberry root and in soluble fraction of the mulberry leaf. Moreover, in roots, the largest amount of Cd was in the form of undissolved Cd-phosphate. While in mulberry leaves and stems, most of the Cd was extracted by 2% Acetic acid and 0.6 M HCl, representing Cd-phosphate and Cd-oxalate. It could be concluded that the Cd combination with peptides and organo-ligands in vacuole of leaf or complexed with proteins or cellulose in the cell wall of root might be contributed to the tolerance of mulberry to Cd stress. The mulberry could be used to remediate the Cd polluted farmland soils.     

黄钩尺蛾在四个茶树无性系品种上的生长和存活(英文)

在实验室条件下, 对食叶害虫黄钩尺蛾Hyposidra infixaria Walker在4个茶树Camellia sinensis无性系品种（TV1, TV9, TV25和Teen ali 17）上的生长和存活进行了研究, 以确定其最适合寄生的茶树无性系品种。结果表明： 在TV25上的黄钩尺蛾幼虫期 (15.78 d)比在TV1 (18.14 d), TV9 (18.00 d)和Teen ali 17 (17.00 d)上显著缩短。黄钩尺蛾按幼期龄数分为5龄型和6龄型两类。6龄型幼虫在TV25上的发生率显著高于其在其他3个无性系品种上的发生率。在TV25上黄钩尺蛾幼虫和蛹的体重也显著高于在其他3个无性系品种上的。同样地, 以TV25为食的黄钩尺蛾未成熟阶段的存活率显著高于其以其他3个无性系品种为食的存活率。基于生长参数和存活率, 我们发现TV25是黄钩尺蛾最适合寄生的茶树无性系品种。     

Effects of extended growth periods on subcellular distribution,chemical forms,and the translocation of cadmium in Impatiens walleriana

Impatiens walleriana plants accumulate sufficiently high concentrations of cadmium (Cd) for this species to be considered a potential Cd hyperaccumulator. Rooted cuttings were grown hydroponically for 25 and 50 days in solutions spiked with various Cd concentrations. The subcellular distribution and chemical forms of Cd in different organs were analyzed, and its upward translocation was also assessed. The plants accumulated large amounts of Cd; the Cd concentration in the roots and shoots reached 120–1900 and 60–1600 mg/kg, respectively. Regardless of the growth period, the Cd accumulated in the roots was primarily compartmentalized in the soluble fraction or ethanol and deionized water extractable chemical forms with high migration abilities. Translocation to the shoots was followed by an association of Cd mainly in the cell wall or with pectate and protein. The roots’ Cd showed a high migration capacity for predicting the shoots’ Cd concentrations. Different exposure periods significantly affected the subcellular distribution of Cd in the stems, and thus the upward translocation.     

Subcellular distribution,chemical forms and thiol synthesis involved in cadmium tolerance and detoxification in Siegesbeckia orientalis L.

Siegesbeckia orientalis L. is a promising species for cadmium (Cd) phytoextraction with large biomass and fast growth rate, while little information about their intracellular mechanisms involved in Cd tolerance and detoxification has been explored. A soil pot experiment with total target Cd concentrations of 0, 10, 50, 100, and 150 mg kg^?1 were designed to investigate the subcellular distribution, chemical forms and thiol synthesis characteristics of Cd in S. orientalis. More than 90% of Cd was bound to the soluble fractions (48.4–76.5%) and cell walls (19.9–46.3%). Increasing soil Cd concentrations enhanced Cd sequestration into the cell walls. Most of the Cd (69.8–82.7%) in the plant organ was mainly in the forms of pectate and protein integrated Cd and undissolved Cd phosphate, while a minor portion (6.8–20.9%) was in the forms of the inorganic Cd and the water soluble Cd. Nonprotein thiols and phytochelatins significantly increased with increasing soil Cd treatment levels, while glutathione concentrations had no obvious change trends. Therefore, intracellular detoxification mechanisms of Cd in S. orientalis mainly rely on formation of less toxic Cd chemical forms, store of a large amount of Cd in cell wall and synthesis of thiol compounds.     

Subcellular distribution and chemical forms of antimony in Ficus tikoua

Ficus tikoua (F. tikoua) was a potential species for antimony (Sb) phytoremediation due to its wide growth in the mining area. However, little was known about its tolerance mechanisms toward Sb. The determination of the distribution and chemical speciation of Sb in F. tikoua is essential for understanding the mechanisms involved in Sb accumulation, transportation, and detoxification. The present study investigated the subcellular distribution and chemical forms of Sb in F. tikoua. The plant was exposed to different Sb concentrations (0, 30, 90, and 180 μmol/L) for 30 days. The results showed that F. tikoua possessed a marked ability to tolerate and accumulate Sb. The proportional Sb increased with increasing Sb concentration in the solution, and the highest Sb concentration occurred in roots (1274.5–1580.9 mg/kg), followed by stems (133.5–498.9 mg/kg) and leaves (4.1–15.7 mg/kg). In the subcellular sequestration of Sb in F. tikoua, the largest accumulation of Sb occurred in cell walls (72.4–87.5%) followed by cytoplasmic organelles (8.2–18.6%) and cytoplasmic supernatant. The results suggested that cell walls act as important protective barriers against Sb toxicity in F. tikoua. Although Sb in all plant tissues found primarily in the fractions extracted by ethanol and distilled water, the current study found that the Sb amounts in the HAc-extractable fraction, HCl-extractable fraction, and residue fraction increased at the highest Sb level (180 μmol/L) compared to that under lower Sb levels. These results indicate that excessive Sb accumulated in F. tikoua under Sb stress is bound to non-dissolved or low-bioavailable compounds, a biochemical mechanism that benefits F. tikoua because it helps alleviate Sb toxicity.     

Study on the purification and chemical compositions of tea glycoprotein

In this paper, improvement in the method for purifying glycoprotein from green tea (Camellia sinensis) was described; some properties and chemical compositions of tea glycoprotein (TGP) were determined by HPGPC, FT-IR, GC–MS technologies. Compared to existing methods, a more compatible method for purifying TGP was proposed. This method was faster, simpler, more effective and easier to be extended to the industrial production than the method that used in our previous work. The molecular weight of TGP was 126,513 Da using HPGPC. GC–MS analysis of TGP showed that TGP was composed of seven kinds of monosaccharides, namely ribose, rhamnose, arabinose, xylose, mannose, glucose, galactose in molar ratios of 1.71:5.88:13.70:1.99:1.00:1.84:33.75. Eighteen amino acids were identified in TGP by amino acid analysis. The FT-IR spectrum of the TGP revealed also typical characteristics of polysaccharides, protein and uronic acid.