Profiling of residue-level photo-oxidative damage in peptides

Grosvenor, Anita J.; Morton, James D.; Dyer, Jolon M.

doi:10.1007/s00726-009-0440-7

Cited by 54 publications

(64 citation statements)

References 70 publications

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“…In Table 5, it can be concluded that the photodegradation rate of tyrosine was positively correlated with the change rate of the whiteness of silk fibroin, which means that tyrosine content of silk fibroin decreased with the increase in photoyellowing of silk fibroin (Grosvenor, Morton, & Dyer, 2010). Since the change rate of the whiteness of silk fibroin was always higher than the photodegradation rate of tyrosine, it can be deduced that photochemistry reactions of tyrosine were directly related to the photoyellowing of silk fibroin and photochemistry reactions of some other amino acids were also involved in the photoyellowing progress at the same time Xie, Shao, & Zhen, 1993).…”

Section: Effects Of the Irradiancy On The Photoyellowing Of Silk Fibroinmentioning

confidence: 92%

Studies on photoyellowing of silk fibroin and alteration of its tyrosine content

Wang

Chen

Cui

et al. 2015

The Journal of The Textile Institute

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The photoyellowing progress of silk fibroin and its influence factors under ultraviolet irradiation have been studied, which was conducted by combining different ultraviolet wavelengths, different ultraviolet irradiancies, and different irradiation times. The blue-ray whiteness after ultraviolet irradiation was tested to characterize the course of photoyellowing of silk fibroin. The result shows that the photoyellowing degree of silk fibroin varies significantly under ultraviolet irradiation of different wavelengths and with the increasing in ultraviolet irradiancy at 313-nm wavelength, the photoyellowing degree aggravates correspondingly, while the ultraviolet irradiancy at 340-nm wavelength has little obvious impact. Additionally, the photoyellowing degree of silk fibroin is positively correlated to ultraviolet irradiancy and irradiation time. To quantitatively analyze the alteration of tyrosine content during the photoyellowing of the silk fibroin, L-tyrosine standard curve Y = 8.14666X − 0.88951 was established using HPLC with linear coefficient r = 0.99991 and precision degree coefficient of tyrosine analyses RSD 1 = 0.21%. Meanwhile, the tyrosine content of silk fibroin after acid hydrolysis was quantitatively analyzed by HPLC with precision degree coefficient RSD 2 = 1.12%. It can be seen that the change rate of the blue-ray whiteness of silk fibroin is positively proportional to the photodegradation rate of tyrosine, but the photodegradation rate of tyrosine ingredient is lower than the change rate of the blue-ray whiteness of silk fibroin.

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Section: Effects Of the Irradiancy On The Photoyellowing Of Silk Fibroinmentioning

confidence: 92%

Studies on photoyellowing of silk fibroin and alteration of its tyrosine content

Wang

Chen

Cui

et al. 2015

The Journal of The Textile Institute

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“…Recent investigations on Trp damage via UV irradiation uncovered that a large variety of photoproducts coexist with multiple oxidations taking place at the Trp residue (up to 4), providing a cascade of modifications [57]. Photodamage is an important artifact to carfully monitor in any laser study.…”

Section: Notesmentioning

confidence: 99%

Upconversion Spectrophotofluorometry

Biesso¹,

Xu²,

Knutson³

2013

Methods in Molecular Biology

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As the other chapters attest, sensitivity of fluorescent molecules to their local environment has created powerful tools in the study of molecular biology, particularly in the study of protein, DNA, and lipid dynamics. Surprisingly, even events faster than the nanosecond lifetimes of fluorophores are important in protein function, and in particular, events lasting just a few ps reflect on water motion and the coupled dynamics of proteins. These ultrafast phenomena can best be studied by using the same laser that excites fluorescence to also “strobe” the emission, providing sub-picosecond time slices of the action. We explain the strobing “upconversion” technique and some limits on its execution.

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“…Both redox and Maillard chemistries generate a range of products in susceptible protein regions, and it is the type and abundance profile of these multiple products that results in the overall food properties. Changes in relative abundance in mass spectrometric analysis can be used to track the progressive loss of native peptides and proteins of parent peptides, and the corresponding formation of modification products within those proteins and peptides (Grosvenor et al, 2009). This can be used to evaluate differing protein processing or treatment parameters, as wells as monitor variation under a range of environmental conditions.…”

Section: Profiling and Trackingmentioning

confidence: 99%

“…A related approach to evaluating molecular level is the characterisation and tracking of marker peptides. An initial analysis of the protein substrate is performed to identify peptides which fulfil selected criteria, such as reproducible extraction and a unique mass within the MS profile of the sample (Grosvenor et al, 2009). Individual marker peptides are then monitored and tracked.…”

Section: Profiling and Trackingmentioning

confidence: 99%