Molecular Structural Analysis of Spider’s Capture Thread and Viscid Droplets Studied by Microscopic FT-IR Spectroscopy

“…By measuring the FT-IR spectral change from 40 to 220 C, they found that the molecular conformation of silk fiber protein of a capture thread is denatured at over 60 C, whereas the viscid droplets on a capture thread retain their structure. 44 This work demonstrates the power of the microscopic FT-IR technique at the micro level. The glass transition process can commonly occur in a polymer system along with the change of parameters, such as the temperature or pressure, which would be accompanied by a micro energy change and a conformation transformation.…”

“…There is much research on polymer systems using the FTIR technique; some of them are combined with other techniques, such as NMR, X-ray etc., which show that FTIR is a powerful tool for analyzing the microscopic structure and energy change in, but not limited to, the polymer system. [34][35][36][37][38][39][40][41][42][43][44] Yabe and coauthors studied the temperature effect on the molecular structure of spider's capture thread by using microscopic FT-IR spectroscopy. By measuring the FT-IR spectral change from 40 to 220 C, they found that the molecular conformation of silk fiber protein of a capture thread is denatured at over 60 C, whereas the viscid droplets on a capture thread retain their structure.…”

Study on the Glass Transition Process of Polymer System Using Differential Scanning Calorimetry and Fourier Transform Infrared Spectroscopy

“…By measuring the FT-IR spectral change from 40 to 220 C, they found that the molecular conformation of silk fiber protein of a capture thread is denatured at over 60 C, whereas the viscid droplets on a capture thread retain their structure. 44 This work demonstrates the power of the microscopic FT-IR technique at the micro level. The glass transition process can commonly occur in a polymer system along with the change of parameters, such as the temperature or pressure, which would be accompanied by a micro energy change and a conformation transformation.…”

“…There is much research on polymer systems using the FTIR technique; some of them are combined with other techniques, such as NMR, X-ray etc., which show that FTIR is a powerful tool for analyzing the microscopic structure and energy change in, but not limited to, the polymer system. [34][35][36][37][38][39][40][41][42][43][44] Yabe and coauthors studied the temperature effect on the molecular structure of spider's capture thread by using microscopic FT-IR spectroscopy. By measuring the FT-IR spectral change from 40 to 220 C, they found that the molecular conformation of silk fiber protein of a capture thread is denatured at over 60 C, whereas the viscid droplets on a capture thread retain their structure.…”

Study on the Glass Transition Process of Polymer System Using Differential Scanning Calorimetry and Fourier Transform Infrared Spectroscopy

“…Parallel factor analysis (PARAFAC) 61,62 of dimensionality reduction for multi-dimensional array data is included in the scikit-tensor-py3 (sktensor) 63 library. Such multi-dimensional array data are obtained in many different types of instrumental analyses through hyphenated techniques, e.g., GC-MS, [64][65][66] LC-MS, [67][68][69] LC-Vis, 37,70 LC-IR, 71,72 TG-IR, 73,74 etc., as well as fluorescence excitation-emission matrix (EEM) spectroscopy, 75,76 hyperspectral imaging, 77,78 microscopic spectroscopy, 36,79,80 etc.…”

Chemometrics and Related Fields in Python

“…Information about the structure and dynamics of several silks have been obtained using solid-state NMR, − IR, − Raman, − and X-ray diffraction methods − experimentally. However, it is by no means easy to determine the atomic-level structure because the spider silk proteins have a complex and amorphous nature.…”

Changes in the Local Structure of Nephila clavipes Dragline Silk Model Peptides upon Trifluoroacetic Acid, Low pH, Freeze-Drying, and Hydration Treatments Studied by ¹³C Solid-State NMR