长期养分添加对贝加尔针茅草原土壤微生物群落的影响

土壤微生物是土壤生态系统的重要组成部分,是土壤生态系统物质循环和能量流动的主要参与者,在维持土壤生态系统过程和功能方面发挥着关键作用。以内蒙古贝加尔针茅草原为研究对象,采用磷脂脂肪酸(PLFA)技术,探讨连续12年氮(N)、磷(P)、钾(K)养分单一添加和复合添加条件下草地土壤理化性质、微生物群落结构特征的变化及其主要影响因素。结果表明,长期养分添加条件下,土壤有机碳和全氮均无显著变化,但磷(P、NP、PK、NPK)和钾(K、NK、PK、NPK)添加处理分别显著提高了土壤速效磷和速效钾含量(P < 0.05)。单一氮添加显著增加了土壤硝态氮和铵态氮含量,并显著降低了土壤pH值(P < 0.05)。单一磷和钾添加均提高了土壤细菌、真菌、放线菌和总PLFA含量,而单一氮添加和复合养分添加(NP、NK、PK、NPK)均显著降低了以上指标的含量(P < 0.05)。此外,各养分添加处理均未显著改变革兰氏阳性细菌与革兰氏阴性细菌比(G⁺/G^-),但含氮的复合添加处理(NP、NK、NPK)均显著降低了真菌与细菌比 (F/B) (P < 0.05)。相关性分析结果表明,多种微生物PLFA含量与速效磷和铵态氮显著负相关,与土壤pH值显著正相关。基于冗余分析和随机森林模型分析发现土壤pH值和土壤磷含量是影响土壤微生物群落特征的主要驱动因素。综上,长期养分添加显著改变了土壤速效养分含量和土壤pH值,并显著影响了土壤微生物群落结构。     

基于科研素质培养的“分子生物学”课程教学改革

作为迅速发展的前沿学科及连续性与承接性很强的实验性学科,"分子生物学"课程对于构建研究生知识体系、培养研究生的科研素养、创新意识和工程实践能力具有重要作用。为满足"新工科"人才培养的需求,我们基于成果导向教育(Outcome-Based Education,OBE)理念,整合教学内容,改革教学方法,借助现代信息化教学平台,以学习小组为单位,开展课堂竞猜、翻转课堂、课堂讨论等教学活动;运用基于问题的学习(Problem-BasedLearning,PBL)法,建立"互动式"的教学模式;设计过程化考核与终结性考核相结合的多元化考核体系,培养研究生的创新能力和工程实践能力,建立一种适合于本校生物工程专业研究生培养的"分子生物学"教学体系。研究生参与教学效果评估及科研成果随访的结果表明,该探索取得了良好的教学效果,为"新工科"背景下生物工程领域的研究型综合创新人才的培养奠定了基础。     

OB增效剂对斜纹夜蛾核多角体病毒的增效作用

本文以OB作为斜纹夜蛾核多角体病毒（Spodoptera litura nucleopolyhedrovirus,SpltNPV）的增效剂,对斜纹夜蛾Spodoptera litura幼虫进行生物测定,结果表明,在0．25％-1．00％的浓度范围内,随着OB增效剂浓度的提高,其对斜纹夜蛾核多角体病毒的增效作用也随着提高,最高增效倍数达85．1倍;在2～4龄幼虫范围内,随着虫龄的增大,OB增效剂对斜纹夜蛾核多角体病毒的增效作用也增加;而随着温度的升高,增效剂的增效作用无显著提高。     

Fungal dual-domain LysM effectors undergo chitin-induced intermolecular,and not intramolecular,dimerization

Chitin is a homopolymer of β-(1,4)-linked N-acetyl-D-glucosamine (GlcNAc) and a major structural component of fungal cell walls. In plants, chitin acts as a microbe-associated molecular pattern (MAMP) that is recognized by lysin motif (LysM)-containing plant cell surface-localized pattern recognition receptors (PRRs) that activate a plethora of downstream immune responses. To deregulate chitin-induced plant immunity and successfully establish infection, many fungal pathogens secrete LysM domain-containing effector proteins during host colonization. The LysM effector Ecp6 from the tomato (Solanum lycopersicum) leaf mold fungus Cladosporium fulvum can outcompete plant PRRs for chitin binding because two of its three LysM domains cooperate to form a composite groove with ultra-high (pM) chitin-binding affinity. However, most functionally characterized LysM effectors contain only two LysMs, including Magnaporthe oryzae MoSlp1, Verticillium dahliae Vd2LysM, and Colletotrichum higginsianum ChElp1 and ChElp2. Here, we performed modeling, structural, and functional analyses to investigate whether such dual-domain LysM effectors can also form ultra-high chitin-binding affinity grooves through intramolecular LysM dimerization. However, our study suggests that intramolecular LysM dimerization does not occur. Rather, our data support the occurrence of intermolecular LysM dimerization for these effectors, associated with a substantially lower chitin binding affinity than monitored for Ecp6. Interestingly, the intermolecular LysM dimerization allows for the formation of polymeric complexes in the presence of chitin. Possibly, such polymers may precipitate at infection sites to eliminate chitin oligomers, and thus suppress the activation of chitin-induced plant immunity.

Fungal LysM effectors composed of two LysM domains bind chitin via intermolecular LysM dimerization, leading to polymers that may precipitate to eliminate chitin from infection sites to prevent the activation of host immune receptors.     

A backbone‐dependent rotamer library with high (ϕ, ψ) coverage using metadynamics simulations

Backbone‐dependent rotamer libraries are commonly used to assign the side chain dihedral angles of amino acids when modeling protein structures. Most rotamer libraries are created by curating protein crystal structure data and using various methods to extrapolate the existing data to cover all possible backbone conformations. However, these rotamer libraries may not be suitable for modeling the structures of cyclic peptides and other constrained peptides because these molecules frequently sample backbone conformations rarely seen in the crystal structures of linear proteins. To provide backbone‐dependent side chain information beyond the α‐helix, β‐sheet, and PPII regions, we used explicit‐solvent metadynamics simulations of model dipeptides to create a new rotamer library that has high coverage in the (ϕ, ψ) space. Furthermore, this approach can be applied to build high‐coverage rotamer libraries for noncanonical amino acids. The resulting Metadynamics of Dipeptides for Rotamer Distribution (MEDFORD) rotamer library predicts the side chain conformations of high‐resolution protein crystal structures with similar accuracy (~80%) to a state‐of‐the‐art rotamer library. Our ability to test the accuracy of MEDFORD at predicting the side chain dihedral angles of amino acids in noncanonical backbone conformation is restricted by the limited structural data available for cyclic peptides. For the cyclic peptide data that are currently available, MEDFORD and the state‐of‐the‐art rotamer library perform comparably. However, the two rotamer libraries indeed make different rotamer predictions in noncanonical (ϕ, ψ) regions. For noncanonical amino acids, the MEDFORD rotamer library predicts the χ ₁ values with approximately 75% accuracy.     

Cell delivery systems: Toward the next generation of cell therapies for type 1 diabetes

Immunoprotection and oxygen supply are vital in implementing a cell therapy for type 1 diabetes (T1D). Without these features, the transplanted islet cell clusters will be rejected by the host immune system, and necrosis will occur due to hypoxia. The use of anti‐rejection drugs can help protect the transplanted cells from the immune system; yet, they also may have severe side effects. Cell delivery systems (CDS) have been developed for islet transplantation to avoid using immunosuppressants. CDS provide physical barriers to reduce the immune response and chemical coatings to reduce host fibrotic reaction. In some CDS, there is architecture to support vascularization, which enhances oxygen exchange. In this review, we discuss the current clinical and preclinical studies using CDS without immunosuppression as a cell therapy for T1D. We find that though CDS have been demonstrated for their ability to support immunoisolation of the grafted cells, their functionality has not been fully optimized. Current advanced methods in clinical trials demonstrate the systems are partly functional, physically complicated to implement or inefficient. However, modifications are being made to overcome these issues.     

Breeding of High Daptomycin-Producing Strain by Streptomycin Resistance Superposition

Daptomycin is a cyclolipopeptide antibiotic produced by Streptomyces roseosporus. It is widely used to treat drug-resistant bacterial infections; however, daptomycin yield in wild strains is very low. To improve the daptomycin production by the strain BNCC 342432, a modified method of ribosome engineering with superposition of streptomycin resistance was adopted in this study. The highest-yield mutant strain SR-2620 was obtained by increasing streptomycin resistance of BNCC 342432, and achieved daptomycin production of 38.5 mg/l in shake-flask fermentation, 1.79-fold higher than the parent strain and its heredity stability was stable. The morphological characteristics of the two strains were significantly different, and the 440^th base G of the rpsL gene in the mutant strain was deleted, which resulted in a frameshift mutation. Our results demonstrate that gradually increasing strain resistance to streptomycin was an effective breeding method to improve daptomycin yield in S. roseosporus. Open in a separate window     

南亚热带混交人工林树种丰富度与土壤微生物多样性和群落组成的关系

森林植被与土壤微生物作为森林生态系统的重要组成部分,它们之间的相互作用对维持森林生态系统功能和稳定性起着重要作用。以往多在天然草地和森林生态系统开展植物多样性与土壤微生物多样性关系的研究,但人工构建的多树种混交林生态系统中树种多样性对土壤微生物群落组成的影响及其机制尚不完全清楚。因此,以南亚热带人工块状造林后自然恢复形成的多树种混交森林生态系统为研究对象,利用高通量测序技术研究了随树种丰富度(1—10种)变化土壤细菌和真菌多样性的变化规律及主要影响因子。结果表明,随树种丰富度增加,土壤真菌α多样性显著提高,但土壤细菌α多样性差异不显著;不同树种丰富度梯度间土壤细菌和真菌的群落结构组成均差异显著;Pearson相关分析表明土壤细菌α多样性主要受土壤pH和土壤铵态氮影响,而土壤pH和有效磷是土壤真菌α多样性的主要影响因子。距离冗余分析(db-RDA)表明,对土壤细菌群落组成产生显著影响的环境因子分别为土壤pH、硝态氮和芳香碳组分,而土壤有机碳、硝态氮、细根生物量和氧烷基碳组分是影响土壤真菌群落组成的主要因子。本研究的结果说明了南亚热带人工林不同树种混交后形成多树种混交林生态系统的过程中,树...