Adsorption of Heavy Metal Ions,Dyes and Proteins by Chitosan Composites and Derivatives-A Review

Chitosan composites and derivatives have gained wide attentions as effective biosorbents due to their low costs and high contents of amino and hydroxyl functional groups.They have showed significant potentials of removing metal ions,dyes and proteins from various media.Chemical modifications that lead to the formation of the chitosan derivatives and chitosan composites have been extensively studied and widely reported in literatures.The aims of this review were to summarize the important information of the bioactivities of chitosan,highlight the various preparation methods of chitosan-based active biosorbents,and outline its potential applications in the adsorption of heavy metal ions,dyes and proteins from wastewater and aqueous solutions.

Protein-derived nitrogen and sulfur co-doped carbon for efficient adsorptive removal of heavy metals

A nitrogen and sulfur co-doped carbon has been synthesized employing egg white as a sustainable protein-rich precursor.According to CHNS elemental analysis,N,S and O heteroatoms accounted for mass fractions of 3.66%,2.28%and 19.29%respectively,and the types of surface functionalities were further characterized by FT-IR and XPS measurements.Although the carbon possessed a smaller surface area(815 m2·g-1)compared to a commercial activated carbon(1100 m2·g-1),its adsorption capacity towards Co2+reached 320.3 mg·g-1,which was over 8 times higher compared to the limited 34.0 mg·g-1 over the activate carbon.Furthermore,the carbon was found to be an efficient adsorbent towards a series of metal ions including VO2+,Cr3+,Ni2+,Cu2+and Cd2+.Combined with its environmental merits,the protein derived carbon may be a promising candidate for heavy metal pollution control.

Effects of Heavy Metal Stress on the Protein Content of Microorganisms

[Objective] The aim was to study the effects of heavy metal stress on the protein content of microorganisms.[Method] By using traditional microbiological culture method,four typical microorganisms(including Escherichia coli,Bacillus subtilis,Saccharomyces cerevisiae Hansen and Streptomycetaceae) were cultured under the stress of heavy metal ions(like Hg2+,Cd2+,Cr6+ and Pb2+) with different concentrations,and the effects of heavy metal stress on the synthesis of protein in four typical microorganisms were discussed through measuring protein content.[Result] Heavy metals with low concentration were beneficial to the synthesis of protein in four typical microorganisms to a certain extent,but the synthesis of protein in four typical microorganisms was inhibited differently with the increase of heavy metal concentration.The tolerance of B.subtilis to four heavy metals was stronger compared with other three microorganisms,and the four heavy metals with concentration of 5-50 mg/L promoted the protein synthesis of B.subtilis.Cr6+ with low concentration promoted the protein synthesis of E.coli greatly;Pb2+ inhibited the protein synthesis of E.coli obviously,and promoted the protein synthesis of other three microorganisms under certain concentration;Cd2+ with low concentration was beneficial to the protein synthesis of four microorganisms.[Conclusion] The study could provide theoretical foundation for discussing the physiological response of microorganism to heavy metal stress.

Ferritin,heavy polypeptide 1 interacts with fragile X-related protein 1

Fragile X-related protein 1（FXR1P） is a member of the FXR gene family,which also includes fragile X mental retardation protein and fragile X-related protein 2（FXR2P）.To understand the functions of FXR1P,we screened FXR1P-interacting proteins using a yeast two-hybrid system.FXR1P was fused to pGBKT7 and used as the bait to screen a human fetal brain cDNA library.This screening revealed 10 FXR1P-interacting proteins including FTH1.FTH1 encodes Homo sapiens ferritin,heavy polypeptide 1.The interaction between FXR1P and FTH1 was confirmed by retesting in yeast using both a β-galactosidase assay and growth studies on selective media.A co-immunoprecipitation assay in mammalian cells further confirmed the FXR1P/FTH1 interaction.Moreover,the results revealed that FTH1 colocalized with FXR1P in the cytoplasm around the nucleus in mammalian cells.The present findings suggest that FXR1P plays an important role in iron metabolism in the brain by interacting with FTH1.This provides clues for elucidating the relationship between FXR1P function and fragile X syndrome.

Effect of Heavy Metals Pollution on Protein Biosynthesis in Catfish

The present study was carried out to evaluate the pollution and its effect on the quality of catfish. Four sites in Eygpt were chosen for the research, Ras El-Bar (Site 1) as control, Shatta (Site 2), Kafr El-Bateekh (Site 3), and Talkha (Site 4). The research was carried out on water, sediments and catfish (serum and muscles). Nitrite, nitrate and ammonia were determined in water and sediment. Also, RNA and DNA were determined in serum samples and the muscles of the catfish. In addition, the concentrations of heavy metals (Pb, Cd, Fe, Zn and Cu) were estimated in water, sediments and the muscles of catfish. Also, hepatosomatic index, liver water content, condition factor, lipid and protein contents were determined in the fish. The concentrations of nitrite, nitrate and ammonia in water and sediment of Site 4 and the levels of heavy metals especially Pb and Cd in water, sediment and muscle of catfish from Sites 3 and 4 were highly elevated compared to those of the control. On the other hand, DNA, RNA and protein contents in the catfish of Sites 3 and 4 decreased. The results illustrated that, Cd and Pb levels in the muscle of catfish were negatively correlated with DNA, RNA and with the protein contents. In conclusion, the accumulation of heavy metals in catfish tissues therefore, can cause health problems in human after catfish intake.

不同外源Cd(Ⅱ)对Pseudomonas aeruginosa EPS的胁迫效应--产量、组分、吸附特性变化及其机制

以CdCl_(2)、CdSO_(4)和Cd(NO_(3))_(2)为胁迫因子,比较了不同阴离子在胁迫/诱导过程中对Pseudomonas aeruginosa(P.aeruginosa)胞外聚合物(EPS)的产量和特性的影响以及对Cd(II)吸附性能的变化.研究发现,当Cd(NO_(3))_(2)胁迫/诱导浓度为50mg/L时,EPS产量达到214.91mg/g VSS,其中蛋白质含量达到136.75mg/g VSS,较胁迫/诱导前增加了409.31%.此时EPS的吸附性能最好,对Cd(II)的平衡吸附量最大,较胁迫/诱导前增加了近一半.HPLC分析表明,EPS蛋白质中氨基酸的变化与EPS的吸附特性密切相关.3D-EEM、XPS和FTIR结果表明,EPS中C=O、C-N和N-H含量增加,有利于重金属的结合.竞争吸附实验发现,EPS对Cd(II)的亲和力高于Zn(II).

不同蛋白原料中矿物质元素含量分析

本试验旨在研究不同蛋白原料中常量元素、微量元素、重金属元素等26种元素的含量及分布规律,分析其含量差异可能成因,为不同蛋白原料科学利用提供数据依据。本实验利用电感耦合等离子体质谱(ICP-MS)技术,系统分析了鸡肉粉、鱼粉、花生浓缩蛋白、大豆浓缩蛋白、棉籽蛋白、菌体蛋白、藻粉和昆虫粉等8种15批次的蛋白原料中元素组成及分布规律。结果表明,所有蛋白原料均含有供试矿物质元素,不同种类的蛋白原料矿物质元素含量差异较大(P<0.05);某些元素在同种不同来源的原料中含量水平差异显著(P<0.05);存在蛋白原料中单一元素含量明显高于其他原料的现象(P<0.05)。通过对数据结果的分析有利于推广应用新型蛋白质饲料原料,促进我国养殖业的可持续发展。

磁弹性生物传感器在食品检测中的研究进展

对引起食品安全问题的主要污染物,如食源性病原体、重金属残留、农药/兽药残留等进行快速而有效的检测是减少食品安全事故发生的重要监控点,高效、灵敏和准确的检测方法对食品检测领域意义重大。近年来,磁弹性生物传感器由于其无毒、低成本、便携、高灵敏度、高准确性和特异性以及可与无线网络连接等特点逐渐成为研究热点。该文主要介绍磁弹性生物传感器的工作原理及其在食品检测应用中的研究进展,以期为食品检测领域提供新思路。

貉肉骨粉营养成分分析

为解决蛋白质饲料原料短缺和价格上涨的问题,对貉肉骨粉的营养成分、卫生与安全性进行了评估,为其作为新的动物性蛋白质饲料资源提供数据支持。试验以貉肉骨粉为材料,与狐肉骨粉、进口牛肉骨粉和进口鱼粉进行对比,测定了常规营养成分、氨基酸含量、重金属元素含量、农药残留和微生物污染情况。结果表明:①貉肉骨粉干物质含量显著高于狐肉骨粉和进口鱼粉(P<0.05),粗脂肪含量显著高于进口牛肉骨粉和进口鱼粉(P<0.05);②貉肉骨粉的必需氨基酸含量显著高于进口牛肉骨粉(P<0.05),非必需氨基酸含量高于其他试验材料;③貉肉骨粉符合饲料卫生标准,未检出六六六和滴滴涕,重金属含量和微生物指标均符合要求。因此,貉肉骨粉具有开发成为新型蛋白质饲料原料的潜力。

Congophilic fibrils in the glomeruli with polyclonal immunoglobulin gamma staining-another cause for diagnostic overlap:A case report

BACKGROUND Glomerulopathy with fibrillary deposits is not uncommon in routine nephropathology practice,with amyloidosis and fibrillary glomerulonephritis being the two most frequently encountered entities.Renal amyloid heavy and light chain(AHL)is relatively uncommon and its biopsy diagnosis is usually limited to cases that show strong equivalent staining for a single immunoglobulin(Ig)heavy chain and a single light chain,further supported by mass spectrometry(MS)and serum studies for monoclonal protein.But polyclonal light chain staining can pose a challenge.CASE SUMMARY Herein we present a challenging case of renal AHL with polyclonal and polytypic Ig gamma(IgG)staining pattern by immunofluorescence.The patient is a 62-yearold Caucasian male who presented to an outside institution with a serum creatinine of up to 8.1 mg/dL and nephrotic range proteinuria.Despite the finding of a polyclonal and polytypic staining pattern on immunofluorescence,ultrastructural study of the renal biopsy demonstrated the presence of fibrils with a mean diameter of 10 nm.Congo red was positive while DNAJB9 was negative.MS suggested a diagnosis of amyloid AHL type with IgG and lambda,but kappa light chains were also present supporting the immunofluorescence staining results.Serum immunofixation studies demonstrated IgG lambda monoclonal spike.The patient was started on chemotherapy.The chronic renal injury however was quite advanced and he ended up needing dialysis shortly after.CONCLUSION Tissue diagnosis of AHL amyloid can be tricky.Thorough confirmation using other available diagnostic techniques is recommended in such cases.

脑脊液NF-L pNF-H与脊髓性肌萎缩症患者病情严重程度及治疗的相关性

目的探讨脑脊液神经丝蛋白轻链(NF-L)及磷酸化神经丝蛋白重链(pNF-H)水平与脊髓性肌萎缩症(SMA)患者病情及治疗的相关性。方法选取2022-02—2023-08蚌埠医科大学第一附属医院儿科确诊为脊髓性肌萎缩(SMA)并接受诺西那生钠治疗的22例患儿为研究对象,收集患儿性别、基因检测结果、疾病分型、开始治疗的年龄、发病年龄、开始治疗前疾病持续时间等基本信息,于诺西那生钠鞘内注射前收集脑脊液标本并检测脑脊液NF-L、pNF-H水平,采用汉默史密斯功能性运动量表扩展版(HFMSE)及上肢模块修订版(RULM)对SMA患儿进行运动功能评估,比较SMA患儿开始治疗时脑脊液NF-L、pNF-H水平,分析脑脊液NF-L、pNF-H水平与开始治疗的年龄、治疗前疾病持续时间及运动功能的相关性,对比治疗期间脑脊液NF-L、pNF-H水平。结果Ⅱ型与Ⅲ型SMA患儿脑脊液NF-L水平(438.15±163.41比283.47±108.11)存在统计学差异(t=2.123,P=0.047),与Ⅱ型、Ⅲ型SMA患儿HFMSE评分(r=-0.521,P=0.15)及RULM评分(r=-0.528,P=0.014)呈负相关,接受诺西那生钠治疗后差异有统计学意义(381.21±166.80比284.94±150.08比194.53±91.09)(Z=23.684,P<0.001);Ⅱ型与Ⅲ型SMA患儿脑脊液pNF-H水平(335.04±110.30比251.64±146.64)差异无统计学意义(P>0.05),与Ⅱ型、Ⅲ型SMA患儿HFMSE评分(r=-0.471,P=0.31)及RULM评分(r=-0.577,P=0.006)呈负相关,接受诺西那生钠治疗后差异有统计学意义(306.71±128.85比179.64±69.28比130.85±49.60)(Z=22.842,P<0.001)。结论脑脊液NF-L、pNF-H水平与SMA患儿病情严重程度呈负相关,并在接受诺西那生钠修正治疗后降低。

美洲大蠊不同发育阶段蛋白质、重金属含量测定及脂溶性成分的GC-MS分析

为促进药材资源的综合开发利用,对美洲大蠊1龄、3龄、6龄以及成虫中蛋白质和4种重金属元素含量、脂溶性成分组成进行了测试。采用凯氏定氮法测定粗蛋白含量、ICP-MS测定重金属元素含量、GC-MS测定脂溶性成分及相对含量。美洲大蠊在不同生长发育阶段的粗蛋白含量为56.61%~67.38%;砷含量≤0.2714 mg/kg;汞含量≤0.1972 mg/kg;铅含量≤0.5482 mg/kg;镉含量≤0.1222 mg/kg;从脂溶性成分中鉴定30种化合物,其中5种为4个生长发育阶段共有成分。美洲大蠊成虫体内蛋白质达63%,是优质的饲料蛋白来源。根据《饲料卫生标准》相关规定,其虫体中汞含量超标,需要对美洲大蠊养殖过程所用的饲料配方进行优化;美洲大蠊体内以棕榈酸为代表的饱和脂肪酸是其表现脂毒性的重要因素,油脂中富含抗氧化酚类物质。

Cysteine Residues in Receptor Proteins： Structural Insights from Two E. coil Periplasmic Binding Proteins

Cysteine residues found in proteins have various functions such as metal binding, nitrosylation, and stabilization of structure. We have done a comparative, computational structural analysis of the cysteine residues in two proteins from bacteria to get some insight into the differences between metal binding cysteine residues and those involved in structure stabilization. The two target proteins in this study are the periplasmic mercury binding protein （MerP） and the 1-1eucine binding protein （LBP）. Both are periplasmic binding proteins from E. coli. We have shown key phenomenon that define cysteines as metal binding or structural in nature.

IGHG1对人急性髓系白血病THP-1细胞增殖、凋亡的影响

目的:探讨免疫球蛋白G1重链恒定区(IGHG1)对急性髓系白血病(AML)细胞系THP-1细胞增殖、凋亡的影响及其可能的作用机制。方法:体外培养人AML THP-1细胞,分为对照(正常培养的THP-1细胞)、pcDNA3.1[转染IGHG1过表达(pcDNA3.1-IGHG1)阴性对照质粒的THP-1细胞]、pcDNA3.1-IGHG1(转染pcDNA3.1-IGHG1的THP-1细胞)、LY364947[转化生长因子-β(TGF-β)/信号转导蛋白(Smad)抑制剂LY36494720μmol/L处理THP-1细胞)]、si-NC[转染IGHG1小干扰RNA(IGHG1-siRNA)阴性对照的THP-1细胞]、si-IGHG1(转染IGHG1-siRNA的THP-1细胞)和si-IGHG1+LY364947(IGHG1-siRNA和LY364947共同处理THP-1细胞)共7组。荧光定量PCR法检测各组THP-1细胞中IGHG1和免疫球蛋白G(IgG)mRNA的表达;CCK-8法检测各组THP-1细胞增殖活力;流式细胞术检测各组THP-1细胞凋亡率和细胞周期变化;蛋白印迹法检测各组THP-1细胞增殖、凋亡及TGF-β/Smad信号通路相关蛋白的表达。结果:与对照组相比,过表达IGHG1后THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、细胞周期蛋白D1(Cyclin D1)、B细胞淋巴瘤-2(Bcl-2)、IgG、TGF-β1、磷酸化Smad3(p-Smad3)/Smad3蛋白表达均显著升高(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bcl-2相关X蛋白(Bax)、半胱氨酸天冬氨酸蛋白酶-3(Caspase-3)蛋白表达均显著降低(P<0.05)。抑制TGF-β/Smad信号通路或沉默IGHG1后THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、Cyclin D1、Bcl-2、IgG、TGF-β1、p-Smad3/Smad3蛋白表达均显著降低(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bax、Caspase-3蛋白表达均显著升高(P<0.05);且与沉默IGHG1相比,IGHG1基因沉默和TGF-β/Smad通路抑制共同处理的THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、Cyclin D1、Bcl-2、IgG、TGF-β1、p-Smad3/Smad3蛋白表达均显著降低(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bax、Caspase-3蛋白表达均显著升高(P<0.05)。结论:沉默IGHG1基因可下调IgG的表达,抑制人AML THP-1细胞增殖,阻滞细胞周期进程,并诱导细胞凋亡;其作用机制可能与抑制TGF-β/Smad通路的激活有关。

球囊霉素相关土壤蛋白对钒钛磁铁尾矿生态环境的修复效果研究

为探讨丛枝菌根真菌(Arbuscular mycorrhizal fungi,AMF)释放的球囊霉素相关土壤蛋白(Glomalin related soil protein,GRSP)对钒钛磁铁尾矿生态环境的修复作用,开展了紫花苜蓿室内培养实验,通过外源施加不同形态及不同剂量的球囊霉素相关土壤蛋白,研究了其对钒钛磁铁尾矿养分环境、团聚结构、重金属活性及紫花苜蓿生长的影响。结果表明:施加GRSP后钒钛磁铁尾矿养分环境得到明显改善,EEG使钒钛磁铁尾矿中速效磷含量增加了19.7%~60.1%;TG效果则更加显著,碱解氮含量和速效磷含量分别增加了12.2%~58.9%和44.7%~111.3%;此外,外源施加TG后钒钛磁铁尾矿团聚结构的稳定性会显著增加,大团聚体占比、平均重量直径和几何重量直径分别增加了29.36%~114.63%、4.76%~15.87%和9.26%~16.67%,提高了钒钛磁铁尾矿对重金属及养分的固持能力;两种形态GRSP对钒钛磁铁尾矿中不同重金属作用有所差异,EEG能显著降低Cu有效性,DTPA提取态Cu含量降低16.7%,TG主要钝化Cr,DTPA提取态Cr含量减少了72.6%。此外,柠檬酸钠的加入在一定程度上抑制了紫花苜蓿的生长。综合分析表明,球囊霉素相关土壤蛋白可以改变钒钛磁铁尾矿重金属活性、提高团聚体稳定性并改善养分环境,为尾矿矿区生态修复提供了理论依据。

川芎嗪对大鼠脊髓损伤后铁代谢的影响

背景:铁代谢紊乱是导致脊髓损伤后神经细胞铁死亡的重要病理因素,不利于脊髓损伤修复。川芎嗪作为行气活血中药川芎的有效活性成分单体,被证实对脊髓损伤具有良好的抗炎、抗脂质过氧化反应以及神经保护作用,需进一步明确其促进脊髓损伤修复的作用机制。目的:研究川芎嗪对大鼠脊髓损伤后铁代谢的调节作用,探讨其改善脊髓损伤的相关机制。方法:将36只SD大鼠随机分为假手术组、模型组和川芎嗪组,每组12只;假手术组仅行椎板切除术,术后给予生理盐水腹腔注射;模型组和川芎嗪组制备脊髓损伤模型,术后分别给予生理盐水和川芎嗪腹腔注射,术后4周取材。采用BBB肢体运动功能评分评价大鼠肢体运动功能,尼氏染色观察神经元形态,普鲁士染色观察脊髓组织铁沉积,铁检测试剂盒检测脊髓组织铁含量,免疫组化检测铁蛋白重链1和铁蛋白轻链表达,Western blot检测铁蛋白重链1和铁蛋白轻链的蛋白表达量。结果与结论:(1)模型组和川芎嗪组大鼠各个时间点BBB评分显著低于假手术组(P <0.01),自术后第14天,川芎嗪组大鼠BBB评分显著高于模型组(P <0.01);(2)尼氏染色结果显示,假手术组神经元形态结构正常,模型组可见大量瘀血,神经元形态结构紊乱,川芎嗪组瘀血较少,神经元形态结构较模型组改善;(3)普鲁士染色结果显示,假手术组铁沉积较少,模型组和川芎嗪组铁沉积较多;普鲁士染色阳性平均吸光度值模型组和川芎嗪组显著大于假手术组(P <0.01),川芎嗪组显著小于模型组(P <0.01);(4)铁含量检测结果显示,模型组和川芎嗪组显著多于假手术组(P <0.01),川芎嗪组显著少于模型组(P <0.01);(5)免疫组化染色结果显示,铁蛋白重链1和铁蛋白轻链阳性表达平均吸光度值模型组和川芎嗪组显著小于假手术组(P <0.01),川芎嗪组显著大于模型组(P <0.01);(6)Western blot检测结果显示,铁蛋白重链1蛋白和铁蛋白轻链蛋白的相对表达量模型组和川芎嗪组显著少于假手术组(P <0.01),川芎嗪组显著多于模型组(P <0.01);(7)结果说明,川芎嗪通过调控铁蛋白重链1和铁蛋白轻链的表达而调节脊髓损伤后铁代谢紊乱,从而发挥神经保护作用,促进脊髓损伤大鼠肢体运动功能恢复。

镉(Cd)胁迫下蓖麻蛋白质组学筛查及RcBSK7抗性功能研究

为揭示蓖麻(Ricinus communis)植株响应重金属镉(Cd)胁迫相关机制,筛选出蓖麻中参与Cd胁迫的抗性基因。本研究通过观察种子发芽及植株生长状态,最终确定以水处理的蓖麻植株为对照,研究其在3种剂量(300、700、1000 mg·L^(-1))Cd胁迫处理下的反应机制,以期为揭示蓖麻响应Cd胁迫的防御和解毒机制提供新思路。利用差异蛋白质组学分析蓖麻在Cd胁迫下的网络调控机制,即随着Cd胁迫浓度的增加,蓖麻植株分别通过阻隔根系对重金属Cd的吸收、提高自身抗氧化能力、抑制Cd^(2+)运转以及诱导细胞程序性死亡等防御解毒过程以抵抗Cd胁迫损伤。根据组学分析结果筛选出差异显著基因RcBSK7,通过在拟南芥(Arabidopsis thaliana)中进行功能验证可知,该基因对提高蓖麻对Cd耐受性具有重要的作用。本研究增强了对蓖麻植株在3种Cd胁迫下多样性和复杂性的认识,为耐Cd基因鉴定和土壤中重金属污染修复提供了有价值的理论依据。

HIPPs响应植物重金属胁迫的调控机制

重金属相关异戊二烯化植物蛋白(HIPPs)是维管植物特征性蛋白之一,包含重金属相关结构域(HMA)和蛋白质C端异戊二烯化位点(CaaX基序)两种保守结构,在植物响应生物胁迫和非生物胁迫中发挥重要作用。本文分析了HIPPs蛋白质结构特征及其在不同植物中的进化与分类,概述了不同植物中HIPPs蛋白质亚细胞定位和HIPPs基因受重金属诱导表达情况,并对拟南芥(Arabidopsisthaliana)、水稻(Oryzasativa)及其他植物中不同HIPPs响应重金属胁迫的功能及调控机制进行了总结。通过综述不同HIPPs蛋白质结构分类与其响应重金属胁迫功能机制的关系,为后续不同植物HIPPs响应重金属胁迫的功能鉴定及机制解析提供理论依据。草类植物的抗逆研究对于改善生态环境具有重要意义,挖掘并鉴定草类植物中HIPPs蛋白质功能,为解析草类植物的逆境调控网络提供重要研究价值。

重金属和Bt蛋白联合暴露对细菌毒性的影响

为考察重金属和Bt蛋白联合暴露对微生物生物毒性的影响,本研究选用Zn^(2+)、Cd^(2+)作为重金属离子代表,Cry1Ac蛋白作为Bt蛋白代表,通过分析不同条件下大肠杆菌(Escherichia coli)和枯草芽孢杆菌(Bacillus subtilis)的生长曲线、菌落数、活性氧(ROS)产生量,探究Zn^(2+)、Cd^(2+)、Cry1Ac蛋白单独和联合暴露对细菌生长及毒性的影响,同时选用费氏弧菌(Vibrio fischeri)进行急性毒性试验。结果表明:Zn^(2+)、Cd^(2+)及Cry1Ac蛋白浓度增加(Zn^(2+)为2~20μg∙mL^(-1),Cd^(2+)为2~10μg∙mL^(-1),Cry1Ac为0.2~4μg∙mL^(-1))对E.coli、B.subtilis生长产生抑制作用,细菌存活率也显著降低(P<0.05),其中B.subtilis的耐性强于E.coli;细菌ROS产生量表明,单独Zn^(2+)、Cd^(2+)能对细菌造成严重氧化损伤,而Zn^(2+)、Cd^(2+)与Cry1Ac蛋白结合能显著降低(P<0.05)金属对E.coli和B.subtilis的氧化损伤,结合后Zn^(2+)-Cry1Ac对大肠杆菌毒性效果强于Cd^(2+)-Cry1Ac;发光细菌试验结果进一步表明Cry1Ac蛋白能缓解Zn^(2+)、Cd^(2+)对细菌的毒害。研究表明重金属和Bt蛋白联合暴露时Bt蛋白能缓解重金属对细菌的毒性。

钼提高植物抗逆性研究进展

钼(Mo)作为植物必需的微量元素,在促进植物生长发育和增强植物抗逆性方面发挥着关键作用。植物对钼的吸收转运主要受到钼酸盐转运蛋白基因MOT1和MOT2调控,钼进入植物体内以含钼酶形式参与植物生长代谢,其中对植物抗逆性方面的调控主要表现为:钼通过含钼酶硝酸还原酶、醛氧化酶、黄嘌呤脱氢酶影响植物体内的光合碳氮代谢、激素合成和活性氧代谢进而调控植物抗寒性;钼通过硝酸还原酶和醛氧化酶介导的信号转导过程调控根系发育、养分水分利用及抗旱基因表达,进一步影响脂质合成与代谢调控植物抗旱性;最新研究还发现钼在植物适应盐胁迫、缓解重金属胁迫方面也具有重要作用。这些研究结果为通过钼营养调控提升植物的抗逆性提供了新思路。