Hierarchies in the structural organization of spider silk—a quantitative model

The unsurpassed mechanical properties of major ampullate spider silk are quantitatively explained by a hierarchical model of its structural organization. Based on combined time-resolved mechanical and Fourier-transform infrared measurements, we show that the core of native silk fibers is strongly prestressed. The prestress is released during wetting, allowing the fibers to shrink, changing permanently the mechanical properties. Prestress is, therefore, the controlling parameter of silk properties.     

蜘蛛吐丝过程中钾的作用

用电感耦合等离子体质谱(ICP-MS)对蜘蛛Nephila丝腺体和丝进行测定,结果表明,钾在丝中的含量明显高于在丝腺体中的含量.同时,在蜘蛛丝蛋白溶液中加入氯化钾,溶液出现乳白色浑浊,表明有呈β-折叠构象的微纤产生.浊度测试发现,丝蛋白微纤会逐渐聚集成较大颗粒而在溶液中形成沉淀.另外,红外光谱和拉曼光谱亦证明钾能够使蜘蛛丝蛋白膜发生从无规线团/螺旋到β-折叠的构象转变.有理由认为钾在蜘蛛吐丝过程中起重要作用,它的存在有利于丝蛋白形成β-折叠结构.     

从天然动物丝到丝蛋白基材料的研究

作为具有优异综合力学性能的天然蛋白质纤维,丰产的动物丝特别是蚕丝长期伴随着人们的日常生活,近十余年来,各种具有特色的功能性丝蛋白基材料更是层出不穷.但在探索动物丝和丝蛋白基材料的过程中,动物丝纤维是经由蚕或蜘蛛等动物的纺器而纺制得到的简单事实往往被忽视;换言之,动物丝实际上是动物对丝蛋白进行体内“加工”后的产物,也是丝蛋白基材料中的一种.因此,天然动物丝中独特的各等级间构效关系与丝蛋白基材料的构效关系之间并不存在着必然的传承效应.本文着重介绍了我们在对动物丝和丝蛋白基材料探索中的经验和体会,即在强调以丝蛋白分子链结构与性能及其之间的关系为研究重点的基础上,从比较和发掘各种天然动物丝的特性入手,进而了解丝蛋白分子链在本体和溶液中的行为,并通过对动物丝蛋白分子链聚集态结构的调控,以达到设计制备一系列多形貌和多功能的动物丝蛋白基材料的目的.     

再生蚕丝的制备及其结构和性能初探

在制备高浓度高分子量蚕丝素蛋白水溶液的基础上, 采用湿法纺丝技术, 在一定条件下纺制出力学性能优于天然蚕(茧)丝的再生蚕丝纤维, 其断裂强度及断裂伸长率分别达到0.5 GPa和20%. 扫描电镜观察结果显示: 初生纤维具有典型的“皮芯”结构, 而纤维内部则为疏松多孔的网状或蜂窝状结构; 经过一定的后拉伸处理后, 纤维的表面变得光滑, 且内部结构也趋于致密. 固体 13C核磁共振及拉曼光谱分析结果表明, 后拉伸及热湿处理均有利于提高纤维内部β-折叠结构的含量, 分子链的规整度和取向性也随之改善, 从而使再生蚕丝纤维的力学性能得到进一步提高.     

Effect of Blending Factors on Eri Silk and Cotton Blended Yarn and Fabric Characteristics

Eri cocoons were prepared into short fibers and subsequently blended with cotton fiber in order to develop the new fiber blended yarn in the short spinning system. The Eri and cotton fibers were blended using the drawframe blending with varying blending factors, viz. blending composition (0–100%) and yarn counts (30 and 50 tex). The results showed that Eri fiber which was longer and stronger than cotton fiber, affected the fiber distribution in the yarn cross-section. The mechanical properties of the blended fibers and yarns increased with increasing silk content. Longer fibers of Eri silk tended to move towards the yarn core, especially at silk content higher than 50%. Moreover, stronger and more extensible Eri silk fiber gave an advantage to the improvement of mechanical properties of those blended yarns with silk content higher than 50%. However, with increasing silk content, the blended yarns were more irregular as shown in %CV. Concerning the yarn count effect, the higher yarn count of 50 tex resulted in a more regular yarn with higher yarn strength than that of 30 tex. The plain-woven fabrics were prepared using the blended yarns as a weft yarn and the cotton yarn or silk yarn as a warp yarn. The mechanical properties of those woven fabrics were characterized in order to study the influence of silk contents. The results showed that tensile strength, %elongation and tear strength of woven fabrics using the blended yarn were increased with an increase in silk content. This is an advantage of Eri silk in the aspect of rendering the strength to the blended yarns and fabrics.     

WISE NMR characterization of nanoscale heterogeneity and mobility in supercontracted Nephila clavipes spider dragline silk

The addition of water to spider dragline silk results in fiber contraction to 50% its initial length and significant changes to the mechanical properties of the silk. This event has been termed supercontraction. A decrease in strength and increase in elasticity have been reported when the silk is in contact with water. Two-dimensional wide-line separation (WISE) nuclear magnetic resonance (NMR) is implemented to correlate (13)C chemical shifts with mobility by observing the corresponding (1)H line widths and line shapes in water-saturated spider dragline silk. The WISE NMR spectrum of the native silk exhibits (1)H line widths that are approximately 40 kHz for all carbon environments characteristic of a rigid organic system. In contrast, the water-saturated case displays a component of the (1)H line that is narrowed to approximately 5 kHz for the glycine C(alpha) and a newly resolved alanine helical environment while the alanine C(beta) corresponding to the beta-sheet conformation remains broad. These results indicate that water permeates the amorphous, glycine-rich matrix and not the crystalline, polyalanine beta-sheets. A delay time is added to the WISE NMR pulse sequence to monitor spin diffusion between the amorphous, mobile region and the crystalline domains. The time required for spin diffusion to reach spatial equilibrium is related to the length scale of the polyalanine crystallites. This technique is employed to measure crystalline domain sizes on the nanometer length scale in water-solvated spider dragline silk. These results provide further insight into the structure of spider silk and mechanism of supercontraction.     

Partial carbonization of aramid fibers

Heat treatment of aramid fiber was conducted in the temperature range 300–710°C nominally for 10 and 30 s in both static air and flowing nitrogen atmosphere. Crystallinity, crystal orientation, and crystallite size were determined using x-ray diffraction. Fibers with a skin–core structure were produced at intermediate temperatures, as revealed by scanning electron microscopy of fibers after partial dissolution of the fiber in 95–98% sulfuric acid. The skin, which forms in both nitrogen and air, is amorphous and brittle. It is insoluble in sulfuric acid, suggesting it is a cross-linked polymer. Formation of the skin may be facilitated by the removal of an aggressive chemical species that forms during heat treatment. The species may diffuse out of the outer layer of the fiber, allowing it to cross-link. The molecular weight of the dissolved core, analyzed using intrinsic viscosity, decreases with increasing heat treatment temperature. The tenacity, modulus, elongation-to-break, and toughness of fibers with a skin–core structure decrease with heat treatment and the fiber loses its fibrillar character. Mechanical property reductions are greater in air than nitrogen. X-ray data are also consistent with the notion that oxygen assists attack of crystals at high temperatures. Scanning electron microscopy shows that fibers have become skin–core composites with quite different mechanical properties between the two regions. A fiber failure mechanism is proposed. © 1994 John Wiley & Sons, Inc.     

基于动物丝蛋白的人工纺丝

动物丝,特别是蜘蛛丝近年来由于其优异的综合力学性能而备受关注。但是天然动物丝的应用由于种种原因而受到各种限制,因此人们期望通过人工纺丝获得性能与天然动物丝相近的人工丝纤维。本文就采用动物丝蛋白进行人工纺丝的历史和现状,从再生蜘蛛丝蛋白、重组蜘蛛丝蛋白和再生蚕丝蛋白等方面进行综述,比较了天然动物丝和人工丝纤维的力学性能,并且探讨了人工生物模拟纺丝制备高性能人工丝纤维(超级纤维)的前景。     

Oriented nucleation of hydroxylapatite crystals on spider dragline silks

Spider dragline silk as a protein fiber can be pictured as the oriented organization of protein nanocrystals along the long axis with their spacing filled by amorphous protein domains. We used the surface of the spider dragline silk as a biological template to nucleate bone mineral hydroxylapatite (HAP) site-specifically from a HAP-supersaturated solution. HAP crystals were found to be nucleated on the surface of silks with their c axis preferentially oriented at an average angle of 72.9 degrees with respect to the long axis of the silks. The preferred orientation is nearly identical among the different mineralized silks that we studied. Other materials such as Au and CdS could be nucleated on the silks but did not show any preferred orientation. We believe that the oriented nucleation of HAP is directly related to the structures of silks and HAP. The mineralized silks will combine the good mechanical properties of the spider silks and the biocompatibility of HAP and may be assembled into ideal biomaterials as bone implants.     

蚕丝丝素中色氨酸含量及其在丝素纤维中的径向分布研究

通过双波长分光光度法和对二甲氨基苯甲醛显色法研究桑蚕春茧内、中、外各茧层丝素中的色氨酸含量和色氨酸在丝素纤维中的径向分布状况 ,并探讨了光、热处理后蚕丝丝素中色氨酸含量的变化 .结果表明 ,外、中、内各茧层丝素的色氨酸含量不一致 ,由外至内各茧层丝素中色氨酸含量依次降低 ;色氨酸在丝素纤维的径向分布不均一 ,呈现色氨酸在易溶落的最外表面层含量最多 ,次表层相对较少 ,中间层较多 ,而内层最少的分布状态 ;光或热处理均会破坏丝素中色氨酸 ,使色氨酸含量明显下降 .     

Observation of spider silk by femtosecond pulse laser second harmonic generation microscopy

An asymmetric β-sheet structure of spider silk is said to induce optical second harmonic generation. In this paper, using an in-house nonscanning type femtosecond pulse laser second harmonic generation microscope, we characterized the behavior of the β-sheet of spider silk under an applied external force. The orientation of the β-sheets was more unidirectional when the silk was extended. One of the origins of the high mechanical strength of the dragline is suggested to be the physical arrangement of its β-sheets.     

Basic Principles in the Design of Spider Silk Fibers

The prominence of spider silk as a hallmark in biomimetics relies not only on its unrivalled mechanical properties, but also on how these properties are the result of a set of original design principles. In this sense, the study of spider silk summarizes most of the main topics relevant to the field and, consequently, offers a nice example on how these topics could be considered in other biomimetic systems. This review is intended to present a selection of some of the essential design principles that underlie the singular microstructure of major ampullate gland silk, as well as to show how the interplay between them leads to the outstanding tensile behavior of spider silk. Following this rationale, the mechanical behavior of the material is analyzed in detail and connected with its main microstructural features, specifically with those derived from the semicrystalline organization of the fibers. Establishing the relationship between mechanical properties and microstructure in spider silk not only offers a vivid image of the paths explored by nature in the search for high performance materials, but is also a valuable guide for the development of new artificial fibers inspired in their natural counterparts.     

丝素蛋白纤维的接枝聚合Ⅲ．丝素蛋白纤维的接枝聚合染色

本文提出了通过接枝聚合物将丝素蛋白纤维的染色的设想：在染料分子上引入丙烯酰基，然后将其接枝到丝素蛋白纤维表面。将2－羟基－4－丙烯酰氧二苯酮（HAOBP），1－羟基－2－丙烯酰氧蒽醌（HAOAQ）和1，5，8－三羟基－2－丙烯酰氧蒽醌（THAOAQ）等三种染料，分别用无引发剂存在下的接枝聚合法接枝到丝素蛋白纤维表面，使丝素蛋白纤维分别染成了浅黄、浅红和浅紫三种颜色。这样染色了的丝素蛋白纤维在浓酸或浓碱溶液中回流，未发生任何裉色现象，并且其热稳定性和紫外稳定性也得到了显著的改善。力学性能未下降。采用甲基丙烯酸甲酯（MMA）与染料单体共同进行接枝聚合染色，可以提高丝素蛋白纤维的光泽度，并可将接枝整理和染色两道工序合而为一。HAOBP、HAOAQ和THAOAQ在丝素蛋白纤维上的接枝率（mol单体／g丝），具有如下顺序，HAOBP＞HAOAQ＜THAOAQ。该顺序与它们的亲水性顺序恰好相反，这一结果支持了Imoto等人的无引发剂存在下的接枝聚合发生在丝素蛋白纤维的疏水区域的观点。     

Presence of β-Turn Structure in Recombinant Spider Silk Dissolved in Formic Acid Revealed with NMR

Spider dragline silk is a biopolymer with excellent mechanical properties. The development of recombinant spider silk protein (RSP)-based materials with these properties is desirable. Formic acid (FA) is a spinning solvent for regenerated Bombyx mori silk fiber with excellent mechanical properties. To use FA as a spinning solvent for RSP with the sequence of major ampullate spider silk protein from Araneus diadematus, we determined the conformation of RSP in FA using solution NMR to determine the role of FA as a spinning solvent. We assigned ¹H, ¹³C, and ¹⁵N chemical shifts to 32-residue repetitive sequences, including polyAla and Gly-rich regions of RSP. Chemical shift evaluation revealed that RSP is in mainly random coil conformation with partially type II β-turn structure in the Gly-Pro-Gly-X motifs of the Gly-rich region in FA, which was confirmed by the ¹⁵N NOE data. In addition, formylation at the Ser OH groups occurred in FA. Furthermore, we evaluated the conformation of the as-cast film of RSP dissolved in FA using solid-state NMR and found that β-sheet structure was predominantly formed.     

Measurement and quantitative analysis of fiber orientation distribution in long fiber reinforced part by injection molding

The fiber orientation distribution is one of the important microstructure variables for thermoplastic composites reinforced with discontinuous fibers. In this paper, the long fibers in the injection molded part are measured in detail by micro X-ray CT. A three dimensional (3D) structure of the sample is built and two dimensional images are generated for image analysis. The orientation tensor of fibers is calculated in the flow plane. It shows a symmetric distribution of fibers through the thickness direction, which consists of outer skin, transition zone and the core. The skin layer is so thin that it has only one layer of highly oriented fibers. The core layer also has highly oriented fibers but the direction of fibers is different from that in the skin layer. Nevertheless, the clustering of the fibers is characterized quantitatively in the core. The transition zone can be divided into two subzones by the principal directions of the tensor.     

甲基丙烯酸双酯改性真丝的热性质

众所周知 ,真丝绸因具有柔和的光泽、细腻的手感、良好的舒适性和保健性而素有“纤维皇后”的美称 .但其极易起毛起皱 ,尤其是湿态下更为严重 ,这大大影响了它的实用价值 .70年代以来 ,人们就开始用化学整理的方法提高和改善真丝绸的各种性能 ,但所用整理剂含有游离甲醛 ,或经其整理后织物会释放对人体有害的甲醛 .随着人们生活水平的提高 ,人们对“绿色纺织品”的需求越来越迫切 ,要求整理向低甲醛、无甲醛方向发展 .近年来 ,人们对用单烯类和环氧化合物对真丝进行改性的研究作了大量的工作[1～ 4] ,这些改性在某种程度上能够改善真丝的性…     

Correlation between processing conditions,microstructure and mechanical behavior in regenerated silkworm silk fibers

Regenerated silkworm fibers spun through a wet‐spinning process followed by an immersion postspinning drawing step show a work to fracture comparable with that of natural silkworm silk fibers in a wide range of spinning conditions. The mechanical behavior and microstructure of these high performance fibers have been characterized, and compared with those fibers produced through conventional spinning conditions. The comparison reveals that both sets of fibers share a common semicrystalline microstructure, but significant differences are apparent in the amorphous region. Besides, high performance fibers show a ground state and the possibility of tuning their tensile behavior. These properties are characteristic of spider silk and not of natural silkworm silk, despite both regenerated and natural silkworm silk share a common composition different from that of spider silk. © 2011 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys, 2012     

蚕丝基智能纤维及织物：潜力、现状与未来展望

纤维及织物因具有良好的柔性、透气性以及适宜的力学性能而成为人们日常生活必不可少的材料。随着柔性电子器件的快速发展,纤维及织物在其自身优势的基础上,开始被人们赋予智能化特征,使得智能纤维和织物逐渐在可穿戴领域占据一席之地。天然蚕丝具有产量大、机械性能优异和生物可降解的优势。近年来,面向智能应用的蚕丝基纤维与织物逐渐发展,被用于传感、致动、光学器件、能量收集和储能等领域。本文将首先介绍天然蚕丝的层级结构和性能,并介绍各种形貌结构的再生蚕丝材料;然后根据其在智能纤维及织物中应用领域的不同,详细阐述蚕丝基智能纤维及织物的制备方法、性能及工作机制;最后讨论进一步发展所面临的挑战与机会,并对未来前景进行展望。     

Synthetic adhesive attachment discs inspired by spider's pyriform silk architecture

Spiders attach their major ampullate silk dragline fibers to surfaces using attachment discs spun from pyriform silk fibers. These attachment discs allow spiders to move safely from place to place while secured to a dragline and to attach their webs to a variety of surfaces. Here, we demonstrate a simple electrospinning process to mimic the “staple‐pin” architecture used by spiders for these attachment discs. Experimental and theoretical evidence are provided to confirm the advantages of thousands of micron‐size “staple‐pins” and their low peeling angles to enhance the adhesive forces required to peel the natural and synthetic attachment discs. These results provide a unique architectural design for fabricating new adhesives that uses very little material for various biomedical and material science applications. © 2014 Wiley Periodicals, Inc. J Polym Sci Part B: Polym. Phys. 2014 , 52, 553–560     

Polylactic acid/silk fibroin composite hollow fibers as excellent controlled drug release systems

Polylactic acid (PLA) and silk fibroin (SF) have been widely used in biomedical applications because of their excellent biocompatibility and degradability. In this study, PLA and SF were used as raw materials to prepare hollow fibers with a skin-core structure by wet spinning technology. Scanning electron microscopy observations revealed that the structure of hollow fibers became increasingly uniform with increasing silk fibroin mass fraction. Tensile test results showed that with the increase of silk fibroin content, the elastic modulus of hollow fibers decreased and their tensile properties improved. The results of hollow fibers degradation experiments revealed that increasing the content of silk fibroin can effectively shorten the degradation time of hollow fibers. Ultraviolet spectrophotometry was used to measure the absorbance of tetracycline hydrochloride in phosphate buffer saline and calculate its release rate in hollow fibers with different silk fibroin contents, the result is HFs-9 > HFs-7 > HFs-0 > HFs-5 > HFs-3. The PLA/SF controlled drug release system has precise controlled release of the drug, realizes the separation of the drug from the controlled release system, and solves the problem of sudden drug release. In addition, the controlled release system is non-toxic, degradable, and has excellent mechanical properties.