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1	The absorption of ultra-violet light by solutions of plant pigments Avery, Madalyn January 2011 (has links) Typescript, etc. / Digitized by Kansas State University Libraries Plant pigments
2	Marine phytoplankton pigments : methods and ecology / Vernet, Maria. January 1983 (has links) Thesis (Ph. D.)--University of Washington, 1983. / Vita. Bibliography: leaves [136]-146. Plant pigments.
3	Plant pigments Brandel, Irvin Walter. January 1906 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1906. / Cover title. "Reprinted from Pharmaceutical review, Vols. 25, 26." Includes bibliographical references. Plant pigments.
4	Spectrophotometric and chromatographic studies of the principal pigments in evergreen blackberries and Alicante Bouschet grapes Yang, Ho-Ya, 1912- 09 1900 (has links) Spectrophotometric and chromatographic methods were employed to study the principal pigments in Evergreen blackberries and Alicante Bouschet grapes. Observations were made on the following items: 1. Juices expressed from the grape and blackberry 2. Principal pigments isolated from the grape and blackberry. 3. Wines made from the grape and blackberry. A Coleman Universal Spectrophotometer, Model No. 11, equipped with a single grating 35 millimicron fixed band, was used for the spectrophotometric study. Observations were made at the visible range of 400 millimicrons to 650 millimicrons at 50 millimicron intervals. Various concentrations of the juices, pigments, and wines were examined. The experiments were repeated with the samples made alkaline to pH 9 with sodium hydroxide. Blackberry wine mixed with 10, 20, 30, 40, and 50 per cent of grape wine were also examined in the sane manner. Results were shown graphically by plotting the E values against wave lengths. It was found that solutions of the higher concentrations always have the higher E values. In the spectrophotometric study, an absorption peak appeared at the 500 millimicron band in the blackberry juice which was not observed in the case of grape juice. The height of the peak was directly proportional to the concentration of the juice and it was unmeasurable when the juice was diluted to 5 per cent or lower. When the juices were made alkaline, all of them had the identical absorption curves except that the blackberry had its curves in higher positions than those of grape. Approximately twice the amount of anthocyanin pigments were isolated from the Evergreen blackberry than Alicante Bouschet grape. The principal pigments isolated from the blackberry were more intense in color than those from the grape. The isolated pigments of Evergreen blackberry and Alicante ouachet grape behaved similarly under the spectrophotometer, indicating that, qualitatively, the same pigments were obtained from blackberry and grape while using the same isolation procedure. Spectrophotometric study of the wines showed that the E values of blackberry wine were inversely proportional to the addition of grape wine. This appeared to be true in both acid and alkaline solutions. By adding 80 per cent of the alkali required to bring the wine to pH 9, more differences in E values between the various mixtures were observed. During the chromatographic atudy, using corn starch as adsorption material, a green band of approximately 1 cm deep was observed in the case of grape wine, which was absent in blackberry wine. The process of wine making changed the quality of pigments as demonstrated in the chromatographic adsorption tubes. The use of acid solution and alumina adsorption mixture as studied by Hamill and Simonds seems more promising than alkaline solution as used in the present study for the detection of in grape wine blackberry wine. / Graduation date: 1944 Plant pigments Blackberries Grapes
5	Studies on the regulation of chloroplast development Darrah, P. M. January 1988 (has links) No description available. 572 Biochemisty of plant pigments
6	The photoreduction of protochlorophyllide and greening Walker, C. J. January 1987 (has links) No description available. 572 Biochemistry of plant pigments
7	The colour of red wine. Birse, Maria Josephine January 2007 (has links) The behaviour of pigments in red wine, namely anthocyanins and anthocyaninderived pigments, was investigated at natural wine pH, at low pH and after addition of SO2, namely SO2 bleaching. An examination of current literature demonstrated absences in wine pigment research. Firstly, few researchers have published the colour properties of a particular wine pigment at different pH values and post-SO2 bleaching. This was demonstrated using the CIELab colours of two individual anthocyanin-derived wine pigments (4-vinylcatechol and 4-vinylsyringol adducts to malvidin 3-glucoside), and an anthocyanin, malvidin 3-glucoside. The colours of the anthocyanin-derived pigments and their resistance to pH change and SO2 bleaching were compared to malvidin 3-glucoside which was affected by media. Generally, in the literature, wine pigments are characterized as individual components. But many pigments contribute to wine colour. So, two novel methods were created and demonstrated using red wines: Shiraz wines from four regions in Australia, and Cabernet Sauvignon wines made using two different strains, Saccharomyces cerevisiae (SC) or Saccharomyces bayanus (SB). The first method can be used to determine the CIELab colour of chromatographically separated wine pigments and allows their colours to be re-created, regardless of their identity. Thus objective measurement of pigment colour at its natural concentration in wine is now possible. An additional method, the “post-column adjustment method” to pH-adjust and SO2 bleach HPLC-separated wine pigments was created. The concentration and colour of HPLC-separated wine pigments at low pH, at wine pH and post-SO2 bleaching can be measured. The method has highlighted the importance of the pH value when quantifying a wine pigment. For example, from low pH to wine pH, the apparent anthocyanin and pigmented polymer concentration was reduced, but the Vitisin A concentration was unchanged. SO2 bleaching resulted in negligible anthocyanin concentration and a further reduction in pigmented polymer concentration, with Vitisin A unaffected. Relative quantities of wine pigments in both SC and SB Cabernet Sauvignon wines were not affected by pH change or SO2 bleaching. Also, using the Shiraz wines and Cabernet Sauvignon red wines, existing and improved colour measurement techniques were discussed. For the Australian Shiraz wines, grape origin was found to influence red wine colour, CIELab values provided enhanced colour measurements, and high wine colour (at natural wine pH) cannot be attributed to individual monomeric anthocyanins (measured by HPLC analysis at low pH). Vitisin A was not responsible for differences in wine colour. SO2-stable wine colour was related to regional differences. The percentage of SO2 non-bleachable pigments was independent of wine region. Chemical index (ii) values indicated that the colour at 520 nm was attributable to pH-dependent wine pigments. Vitisin A and pigmented polymer concentrations correlated well with SO2-stable wine colour. Pigmented polymer concentration may be the driving force behind wine colour density. Copigmentation was of no importance in the young red wine samples studied. With the Cabernet Sauvignon red wines, the yeast strains used for fermentation affected wine colour and SO2-stable wine colour. The change in wine colour density was not related to change in total red pigment colour or anthocyanin concentration. Pigmented polymer concentration, SO2-stable wine colour and the percentage of SO2 non-bleachable pigments were consistently higher in the SB wines. The pH value was important when determining the colour of a wine or pigment. At low pH, the SC wines were more coloured than the SB wines. However, at real wine pH, the converse was true. For both wines, at low pH, the anthocyanin concentration was greater than the pigmented polymer concentration, indicating the importance of anthocyanins to wine colour only at low pH. But, at wine pH, the apparent anthocyanin concentration was much lower in both wines (for example, malvidin 3- glucoside provided more colour at low pH than at wine pH) than the apparent pigmented polymer concentration. Therefore, at wine pH, anthocyanins were less important to wine colour than pigmented polymers. The concentrations of Vitisin A were similar in all three media, but colour losses were observed at wine pH and post-SO2 bleaching. SB Vitisin A was more coloured. At low pH and at wine pH, Vitisin A was more coloured than malvidin 3-glucoside in both wines, even though the apparent Vitisin A concentration was lower. Differences in the colours of the SC and SB pigmented polymers peaks were observed at low pH, at wine pH and following SO2 bleaching. The SB pigmented polymers were darker and more colourful, exhibited more colour absorbance and a slight bathochromic shift of lmax value. From low pH to wine pH and following SO2 bleaching, pigmented polymers become lighter, whilst retaining orange-red hues. / http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1277727 / Thesis (Ph.D.) -- School of Agriculture, Food and Wine, 2007 Anthocyanins Plant pigments. Grapes.
8	The molecular biology of anthocyanin biosynthesis in grape berry skins Boss, Paul K. January 1998 (has links) (PDF) Copies of author's previously published works inserted. Addendum enclosed in pocket on back end paper. Bibliography: leaves 192-221. Anthocyanins Plant pigments Grapes
9	The molecular biology of anthocyanin biosynthesis in grape berry skins / Paul K. Boss. Boss, Paul K. January 1998 (has links) Copies of author's previously published works inserted. / Addendum enclosed in pocket on back end paper. / Bibliography: leaves 192-221. / x, 221 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Horticulture, Viticulture and Oenology, 1998? Anthocyanins. Plant pigments. Grapes.
10	Isolation, structures and properties of anthocyanins and wine pigments / by Robert E. Asenstorfer. Asenstorfer, Robert E. January 2001 (has links) Includes bibliographical references (leaves 218-227). / xviii, 227 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This study concerns the structures, equilibrium distributions and formation of pigments found in red wine... A new method was developed for the isolation of C4-substituted pigments from the wine and grape marc extracts which was based on the reactivity of anthocyanins with bisulphite ion to form anionic bisulphite addition products. / Thesis (Ph.D.(Ag.Sc.))--Adelaide University, Dept. of Horticulture, Viticulture and Oenology, 2001 Anthocyanins Plant pigments Grapes.

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