Structure and molecular conformation of tussah silk fibroin films: Effect of methanol

Structural changes of tussah (Antheraea pernyi) silk fibroin films treated with different water-methanol solutions at 20°C were studied as a function of methanol concentration and immersion time. X-ray diffraction measurements showed that the α-helix structure, typical of untreated tussah films, did not change for short immersion times (2 min), regardless of methanol concentration. However, crystallization to β-sheet structure was observed following immersion of tussah films for 30 min in methanol solutions ranging from 20 to 60% (v/v). IR spectra of tussah films untreated and methanol treated for 2 min exhibited strong absorption bands at 1265, 892, and 622 cm^?1, typical of the α-helix conformation. The intensity of the bands assigned to the β-sheet conformation (1245, 965, and 698 cm^?1) increased for the sample treated with 40% methanol for 30 min. Raman spectra of tussah films with α-helix molecular conformation exhibited strong bands at 1657 (amide I), 1263 (amide III), 1106, 908, 530, and 376 cm^?1. Following α → β conformational transition, amide I and III bands shifted to 1668, and to 1241, 1230 cm^?1, respectively. The band at 1106 cm^?1 disappeared and new bands appeared at 1095 and 1073 cm^?1, whereas the intensity of the bands at 530 and 376 cm^?1 decreased significantly. ©1995 John Wiley & Sons, Inc.     

Structure and molecular conformation of tussah silk fibroin films: Effect of heat treatment

Structural changes of tussah (Antheraea pernyi) silk fibroin films induced by heat treatment were studied as a function of the treatment temperature in the range 200–250°C. The DSC curve of tussah films with α-helix molecular conformation displayed characteristic endo and exo peaks at 216 and 226°C, respectively. These peaks first weakened and then completely disappeared after heating at 230°C. Accordingly, the TMA thermal shrinkage at 206°C disappeared when the films were heated at 230°C. The onset of weight loss was monitored at 210°C by means of TG measurements. X-ray diffraction profiles gradually changed from α-helix to β-sheet crystalline structure as the treatment temperature increased from 200 to 250°C. On raising the heating temperature above 200°C, the intensity of IR and Raman bands characteristic of β-sheet conformation increased in the whole ranges of amide and skeletal modes. The sample treated at 200°C showed a spectral pattern intermediate between α-helix and β-sheet molecular conformation. The IR marker band for random coil structure, still detectable at 200°C, disappeared at higher treatment temperatures. Spectral changes attributable to the onset of thermal degradation appeared at 230°C. © 1997 John Wiley & Sons, Inc. J Polym Sci B: Polym Phys 35: 841–847, 1997     

用桑蚕丝素蛋白固定脲酶的研究及脲酶电极的制备

提出了一种新的酶固定化方法, 即通过甲醇处理, 使蚕丝素蛋白膜的构象由random coil向β-sheet发生根本性的变化, 从而将酶固定在β-sheet所特有的分子间氢键中。利用此方法所制成的脲酶电极, 在合适的操作条件下, 各项响应指标均令人满意, 并且脲酶的耐温性能被大大提高, 电极的有效使用寿命长达三个月以上。此种酶固定化方法原则上能够应用于其他不破坏蚕丝素蛋白分子结构的可溶性酶。     

时间分辨全反射红外光谱对醋酸诱导丝蛋白构象转变的研究

采用时间分辨全反射红外光谱为主要分析手段, 对醋酸在丝蛋白膜中的扩散过程及其对丝蛋白构象转变机理进行了研究. 结果表明, 醋酸能够诱导丝蛋白构象转变为β-折叠. 醋酸的扩散速率和β-折叠构象的生成速率较为相似, 表明醋酸分子渗透到丝蛋白聚集体中是破坏丝蛋白原有氢键并诱导肽链重排, 进而实现构象转变的一个先决条件. 同时, 通过比较真空干燥处理前后丝蛋白膜的实验结果, 证实了丝蛋白中的水含量是影响醋酸的扩散速度以及丝蛋白多肽链重排速度的一个重要因素.     

Physical and chemical properties of tussah silk fibroin films

Physical and chemical structure, as well as thermal behavior of solution-cast regenerated films, prepared from tussah (Antheraea pernyi) silk fibroin, were compared with those of solution-cast native films, in order to ascertain whether treatment (degumming, dissolution) used for preparation affected their properties. Regenerated fibroin films exhibited a higher thermal stability than native ones, as shown by differential scanning calorimetry, thermomechanical analysis, and dynamic mechanical behavior. Glass transition temperature and other relevant thermal transitions of the regenerated silk specimen shifted to higher temperatures compared with those of native specimen. Molecular conformation and crystalline structure did not show significant differences between the two kinds of silk films. Amino acid composition and molecular weight, however, distribution changed markedly after dissolving tussah silk fibroin fiber in concentrated LiSCN in polypeptide size was the main features for the regenerated silk fibroin. © 1994 John Wiley & Sons, Inc.     

Structure and molecular conformation of tussah silk fibroin films treated with water–methanol solutions: Dynamic mechanical and thermomechanical behavior

The thermal response of tussah (Antheraea pernyi) silk fibroin films treated with different water–methanol solutions at 20°C was studied by means of dynamic mechanical (DMA) and thermomechanical (TMA) analyses as a function of methanol concentration and treatment time. The DMA curves of α-helix films (treated with ≥80% v/v methanol for 2 min and 100% methanol for 30 min) showed the sharp fall of storage modulus at about 190°C, and the loss peak in the range 207–213°C. The TMA curves were characterized by a thermal shrinkage at 209–211°C, immediately followed by an abrupt extension leading to film failure. Both storage and loss modulus curves significantly shifted upwards for β-sheet films, obtained by treatment with ≤60% methanol for 30 min. The loss peak exhibited a maximum at 236°C. Accordingly, the TMA shrinkage at above 200°C disappeared. The films broke beyond 330°C, failure being preceded by a broad contraction step. Intermediate DMA and TMA patterns were observed for the other solvent-treated films. The loss peak shifted to higher temperature (219–220°C), and a minor loss modulus component appeared at about 230°C. This coincided with the onset of a plateau region in the storage modulus curve. The TMA extension–contraction events in the range 200–300°C weakened, and the samples displayed a final broad contraction (peak temperature 326–338°C) before breaking. The DMA and TMA response of these films was attributed to partial annealing by solvent treatment, which resulted in the formation of nuclei of β-sheet crystallization within the film matrix. The increased thermal stability was probably due to the small β-sheet crystals formed, which acted as high-strength junctions between adjacent random coil and α-helix domains. © 1998 John Wiley & Sons, Inc. J Polym Sci B: Polym Phys 36: 2717–2724, 1998     

Structural changes in poly(L-alanine) induced by heat treatment

Structural changes in poly(L -alanine)(PLA), a model compound related to tussah silk fibroin, induced by heat treatment have been studied by differential thermal analysis, x-ray diffraction, and infrared spectroscopy. PLA heated below 300°C shows x-ray patterns very similar to those of the α-helix crystalline phase, in addition to the diffraction patterns due to the β structure. Samples heated at 368°C exhibit predominantly the diffraction patterns due to the β crystalline phase. From infrared spectra, PLA samples heated below 280°C are found to be composed of all three molecular conformations: β sheet, random coil, and α helix. The intensity of the infrared absorption at 650 cm^?1 (amide V) assigned to the random coil conformation is decreased by heat treatment above 325°C. The content of the β-sheet structure remains almost constant when the specimen is heated below 325°C, and increases abruptly on heating to around 335°C, while the random coil content is decreased abruptly by heat treatment above 335°C. The α-helix content does not change, regardless of heat treatment. It is suggested therefore that the random coil conformation of PLA transforms directly into the β sheet on heat treatment above 335°C.     

Physical properties and structure of silk. V. Thermal behavior of silk fibroin in the random-coil conformation

The thermal behavior of films of amorphous silk fibroin in the random-coil conformation has been investigated in the temperature range 25–220°C by differential scanning calorimetry (DSC), thermal expansion, dynamic mechanical measurements, x-ray diffraction, and infrared spectroscopy. As the temperature is raised, water is lost up to about 100°C. Intramolecular and intermolecular hydrogen bonds are broken between 150 and 180°C. The glass transition is observed at 173°C by DSC. The random-coil→β-form transition accompanied by reformation of hydrogen bonds takes place above 180°C. Thermally induced crystallization to the β-form crystals starts at about 190°C.     

Structural changes of silk fibroin membranes induced by immersion in methanol aqueous solutions

Structural changes of native and regenerated silk fibroin membranes were induced by immersion in water-methanol solutions and examined as a function of immersion time and methanol concentration. X-ray diffractometry and infrared spectroscopy data showed that transition from random coil to β-sheet structure occurred favorably when both native and regenerated silk fibroin membranes were immersed in water-methanol solutions, regardless of the different immersion time. Only native silk membrane, treated for 2 min with pure methanol, maintained its original amorphous structure, as demonstrated by differential scanning calorimetric (DSC) curves. The degree of displacement, measured by thermomechanical analysis (TMA), was much greater for regenerated than for native silk fibroin membranes. SDS-PAGE pattern showed that native silk fibroin has a molecular weight of 350, while the regenerated sample is formed by a large number of polypeptides in the range of 200-50 KD. The amount of acidic and basic amino acids decreased slightly in regenerated silk fibroin. Physical properties of silk membranes treated with water-methanol solutions are discussed in terms of membrane structure, treatment conditions, and chemical structure of starting material. © 1994 John Wiley & Sons, Inc.     

羟丙基甲基纤维素诱导丝素蛋白的构象转变

制备了羟丙基甲基纤维素 (HPMC)和丝素蛋白 (SF)的共混膜 ,用FTIR ,XRD和DSC方法对共混膜的结构进行了表征 ,讨论了HPMC对SF的构象转变作用 ,结果表明 ,HPMC能够有效的诱导SF的构象转变 ,HPMC的比例是影响SF的构象转变程度的重要因素 .当混入 3%～ 10 %HPMC时 ,SF的构象存在由无规线团或SilkI向SilkII(β 折叠 )的转变 ,当加入 7%HPMC时 ,β 折叠构象的比例最大 .从红外分析可知 ,构象转变是由于适量的HPMC与SF混合形成了二者之间的分子间氢键所致 .对不同比例的共混膜测定其在水中的溶出率 ,结果显示当HPMC的比例为 7%时SF几乎不溶于水     

Physical properties and structure of silk. VI. Conformational changes in silk fibroin induced by immersion in water at 2 to 130°c

Silk fibroin films in the random-coil and β-form conformations were immersed in water at temperatures from 2 to 130°C, and conformational changes were followed by x-ray diffraction, infrared spectroscopy and differential scanning calorimetry. On treatment with water below 60°C, the random-coil conformation is converted to the α form and above 70°C to mixtures of the α and β conformations. The β-form content increases as the immersion temperature is raised. The β form is not affected by immersion in water in the temperature range studied.     

蚕体内不同丝腺部位丝蛋白溶液结构与性质的研究

采用偏光显微镜研究了蚕体内不同丝腺部位(包括前部、中部和后部)中丝蛋白溶液的性质变化,并采用了拉曼光谱和旋转流变仪对中部丝腺(包括前区、中区及后区)的丝蛋白分子结构和流变性能进行了分析。结果发现:蚕体内只有前部丝腺及中部丝腺前区的丝蛋白溶液具有偏光现象;丝蛋白溶液在由中部丝腺后区向前区流动的过程中,粘度及弹性均逐渐变小,其构象则由无规卷曲逐渐向α-螺旋转变,并进一步形成β-折叠构象。由此表明,在蚕体内中部丝腺前区的丝蛋白溶液很可能已经形成了液晶态结构。     

蚕丝蛋白与类动物丝蛋白聚合物共混膜的振动光谱研究

蚕丝纤维具有优良的力学性能 ,不同的环境条件对其力学性能有一定的影响 ,但其力学性能主要取决于形成纤维过程中所形成的以分子链 β-折叠结构及其沿纤维轴方向高度取向为特征的丝纤维凝聚态结构 [1,2 ] .因此在丝纤维的形成及丝蛋白膜的人工制备过程中 ,丝蛋白分子链的构象及其构象转变一直是研究的重点[3～ 6 ] .以蚕丝蛋白 (Silk Fibroin,SF)稀溶液在常温下浇铸的 SF膜一般以无规线团 /α-螺旋为主的构象状态存在 ;经热处理、极性溶剂 (如甲醇等 )处理、应力作用或共混入一些能与SF形成分子间氢键的聚合物组分后 ,SF膜的构象将从无…     

丝蛋白纤维机理的模型——应力作用下丝蛋白构象的转变

本文用喇曼(Raman)光谱和X-射线衍射等手段研究了桑蚕吐丝过程中丝腺体不同部位的丝蛋白的构象变化。发现随应力增加,从前部丝腺开始,丝蛋白产生了β-折叠构象。通过将丝蛋白直接在拉力机上拉伸,用Raman光谱等手段检测,详细研究了在不同拉伸条件下丝蛋白构象的变化,在微观层次上揭示了丝蛋白在应力作用下变性的全过程,并提出了相应的转变模型。     

Concentration‐dependent conformation transition of regenerated silk fibroin induced by graphene oxide nanosheets incorporation

Regenerated silk fibroin (RSF)/graphene oxide (GO) nanocomposite has been substantially investigated due to its significant multifunctional potential. Here, in combination of micromorphology, crystalline conformation, dynamic mechanical property characterization, and Fourier self‐deconvolution (FSD) quantitative analysis, we investigated the RSF molecular chains conformation transition induced by GO nanosheet incorporation, and its influence on the structural and mechanical properties of solution casted RSF/GO composite films. The GO nanosheet promoted the silk fibroin molecular chains conformation transition from random coil to β‐sheet structure, and a correlation between β‐sheet structure fraction and GO concentration was revealed. The β‐sheet structure fraction increases further improved the dynamic mechanical property of composite films. Moreover, based on nucleation‐dependent aggregation of silk fibroin molecular chains, a mechanism considering the competition effect between GO concentration and its total surface area was proposed to explain the observed concentration‐dependent conformation transition phenomenon. The study improves our understanding on silk fibroin conformation transition process in RSF/GO composite and would provide a valuable reference for the rational design of bioinspired multifunctional materials with enhanced mechanical properties. © 2019 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2019 , 57, 1506–1515     

Conformation transition of silk fibroin induced by blending chitosan

The conformation of silk fibroin in silk fibroin/chitosan (SF/CS) blend membrane was analyzed by infrared spectrum, X-ray diffractometry, and Raman spectrum. The results demonstrated that the SF could show β-sheet conformation when the SF content in blend membranes was 10% (w/w) and 60–80% (w/w), while the pure SF membrane showed random coil conformation. A mechanism of the conformation transition was suggested in that the SF chain could use the rigid CS chain as a mold plate to stretch itself to form a β-sheet structure according to the strong hydrogen bond between CS and SF. Therefore, a new concept, named “Polymer-Induced Conformation Transition,” was proposed. © 1997 John Wiley & Sons, Inc. J Polym Sci B: Polym Phys 35 : 2293–2296, 1997     

铜离子对水溶液中再生丝素蛋白构象转变的诱导作用

综合外加疏水性荧光探针ANS和荧光猝灭等多种荧光分析手段以及远紫外圆二色(far-UVCD)实验,发现在再生丝素蛋白稀溶液中,Cu(Ⅱ)通过与丝素蛋白疏水区域的直接络合从而诱导蛋白质分子发生构象转变,这一过程与乙醇诱导下的丝素蛋白变性有着相当大的区别.就络合位点而言,除了普遍认为的组氨酸(His)残基外,丝素蛋白分子中的色氨酸(Trp)残基是Cu(Ⅱ)的另一个有效络合点,并且这种络合在一定条件下是可逆的.     

蚕丝蛋白与硅溶胶复合材料的研究

采用动态力学测试手段(DMA)并结合扫描电镜和拉曼光谱等方法,考察了用桑蚕丝蛋白与二氧化硅水分散体系(硅溶胶)制备的复合材料的结构与性质.结果表明,在此共混体系中,直径约为100 nm的二氧化硅聚集体与丝蛋白连续相的界面相容性良好.动态力学测试发现,复合材料的动态力学性能在15℃到55℃范围相对于纯丝蛋白材料得到了改善,二氧化硅组分的加入对丝蛋白分子链段的运动性有所阻碍,从而导致了40℃模量损耗的消失.     

铁和锰对桑蚕丝蛋白构象转变的影响

采用电感耦合等离子体质谱和原子吸收光谱对桑蚕丝腺体和蚕茧丝中Fe和Mn的含量进行表征, 同时采用拉曼光谱研究Fe(III)和Mn(II)对高浓度再生桑蚕丝蛋白水溶液中丝蛋白构象的影响. 研究结果表明, 桑蚕丝纤维中Fe的含量高于其在丝腺体中的含量, 而Mn的含量则相反. 在丝腺体中, Fe的含量从丝腺体的后部到前部逐渐增加; 但Mn含量的变化趋势与Fe不同, 它在丝腺体中部的含量最低. Fe(III)能够诱导丝蛋白的构象由无规线团和/或螺旋结构向β-折叠转变, 但是Mn(II)对丝蛋白的构象没有明显的影响.     

Chinese Oak Tasar Silkworm Antheraea pernyi Silk Proteins: Current Strategies and Future Perspectives for Biomedical Applications

Chinese nonmulberry temperate oak tasar/tussah, Antheraea pernyi (Ap) silk is a natural biopolymer that has attracted considerable attention as a biomaterial. The proteinaceous components of Ap silk proteins, namely fibroin and sericin may represent an alternative over mulberry Bombyx mori silk proteins. In fact, the silk fibroin (SF) of Ap is rich in Arginyl‐Glycyl‐Aspartic acid (RGD) peptides, which facilitate the adhesion and proliferation of various cell types. The possibility of processing Ap silk proteins into different distinct 2D‐ and 3D‐based matrices is described in earlier studies, such as membranes, nanofibers, scaffolds, and micro/nanoparticles, contributing to a different rate of degradation, mechanical properties, and biological performance useful for various biomedical applications. This review summarizes the current advances and developments on nonmulberry Chinese oak tasar silk protein (fibroin and sericin)‐based biomaterials and their potential uses in tissue engineering, regenerative medicine, and therapeutic delivery strategies.