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41	The influence of base wine composition and wood maturation on the quality of South African brandy Snyman, Caroline Lucie Charlotte 03 1900 (has links) Dissertation (PhD)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Brandy production is a multi-step process that involves grape harvesting, base wine fermentation, distillation, wood maturation and blending. Within each of these production process steps there are a number of factors that can influence the composition and resultant quality of the base wine, unaged and wood matured distillates. These factors include geographic and climatic features of the origin of grapes used, viticultural practices, grape maturity, grape variety, vintage variation, vinification techniques, storage of the base wine prior to distillation, distillation technique, age and origin of oak wood used for maturation and barrel toasting levels. The composition of flavour is extremely complex in wine and distilled beverages such as brandy. A multitude of compounds can take part in the formation of flavour, and it is rare that a particular compound, that is solely responsible for nuances of a specific flavour, is identified. Thus, taking brandy production factors and the nature of aroma and flavour into account, it is clear that thorough understanding of the complexities affecting the perception of quality in brandy is difficult. In commercial brandy production, standard operating procedures do not allow for the separate distillation of brandy base wines from different producers and mixing of base wines from different regions and producers thus occurs. This makes it difficult to determine whether the quality determination of the base wine is in fact an indication of the quality of the resultant distillate after the required period of wood maturation. Therefore, the aim of this study is to determine whether there is any merit in storing and distilling brandy base wines from different producers and regions separately. This was done by firstly determining the demographic and production factors that influence brandy base wine composition. Secondly, the influence of brandy base wine composition on the quality of the respective unaged potstill distillates as well as the ultimate style and quality of the threeyear old wood matured potstill distillates was determined. For this purpose, four potstills with a capacity of 2000 L each were isolated and used for commercial scale distillations of 33 and 25 brandy base wines in 1999 and 2000, respectively, at the DisteIl distillery in Worcester. The experimental outlay used in the study closely emulated Distell's standard operating procedures for commercial brandy production. Chenin blanc and Colombar are the two most popular grape varietals used in the making of brandy base wine in South Africa. Due to the complexity of the brandy production process, the first part of the study only focussed on South African young Chenin blanc wines, with a predominantly fermentation derived aroma. The concentration of iso-amyl acetate, hexyl acetate, ethyl caprylate, ethyl caprate, 2-phenethyl acetate and octanoic acid was significantly higher in wines awarded gold and silver medals and decreased significantly with subsequent decreases in quality categories. Ethyl lactate exhibited the opposite pattern. A quality predictor model based on the behaviour of 21 volatile compounds quantified in these wines had a resonable prediction accuracy when having to predict the quality of wines made in the same vintages as it had been trained on. It was significantly poorer when tested on a completely different vintage of wines to the ones it had been trained on. The number of vintages, number of wines per vintage and the number of compounds quantified for the model influence its prediction accuracy. Twenty-seven volatile compounds were quantified in 33 and 25 brandy base wines, their unaged and three year old distillates from 1999 and 2000, respectively. ANOVA and CART analysis showed that vintage, region, harvest time, choice of cultivar and yeast strain can have a significant influence on the volatile compound composition of brandy base wines, their unaged and three year old distillates. These factors as well as the volatile compound composition were also found to influence the sensory quality of these products. Base wines, unaged and three year old distillates originating from the De Dooms region, which predominantly cultivates table grapes, were of significantly lower quality than those from the remaining regions. Products made from grapes harvested early in the season were of significantly higher quality. The volatile aroma compound composition was found to differ significantly between the 1999 and 2000 base wines and distillates, irrespective of the exclusion of those samples that had undergone partial or complete malolactic fermentation. Consequently, quality indicating compounds may vary from vintage to vintage. The relationship between the quality of brandy base wines and the concentration of n-butanol, iso-amyl acetate, ethyl lactate, ethyl caprylate, octanoic- and decanoic acid was the same as that reported in young Chen in blanc wines in this study. In unaged distillates, increased levels of ethyl lactate also exert a negative influence on distillate quality. Iso-amyl acetate, hexyl acetate, ethyl caproate, ethyl caprylate, n-butanol, octanoic acid, ethyl caprate and decanoic acid showed some positive correlation, whilst iso-butanol, ethyl lactate, acetic acid, acetaldehyde and ethyl acetate showed a significant negative correlation to three-year old distillate quality. Sensory descriptive analysis on selected good, average and poor quality distillates using the South African brandy aroma wheel showed that there are small differences in profile between the good and average distillates, there were however significant differences between the good and poor quality distillate profiles throughout maturation. After three years of wood maturation, the aroma profile of poor quality distillates can be characterised by prominent herbaceous and woody aromas, which are more intense than the fruity aromas. Good quality distillates contained characteristically intense fruity aromas. Volatile compound concentration differences were noted during the course of and after three years of wood maturation and in barrels of varying ages. Distillates matured in new block barrels exhibited significant differences in volatile and wood compound composition after three years when compared to remaining barrels used. The style classification of the three-year old potstill distillate was influenced by demographic and production factors and volatile compound composition, but not by the sensory quality of the distillates. In summary, vintage, region, cultivar, harvest time and choice of yeast strain have a significant influence on the volatile composition of brandy base wines, their unaged and three year old potstill distillates, which in turn affects the sensory quality of these products. These effects cannot be viewed in isolation as they jointly exert an influence on the composition and quality of these products. From a commercial perspective, this study has provided a valuable indication as to which production and demographic factors can influence the quality and style of potstill brandy. Thus, future brandy base wine intake should, as far as possible, take place in such a manner to allow base wines originating from the same cultivar or region or harvest time or combination thereof (and to a lesser extent yeast strain) to be received simultaneously at the distillery for distillation. / AFRIKAANSE OPSOMMING: Brandewyn produksie is 'n veelvoudige proses wat die volgende insluit: pars van druiwe, basiswyn fermentasie, verstoking, houtveroudering en versnyding. Binne hierdie stappe is verskeie faktore wat 'n invloed op die samestelling en resultate van die basiswyn, onverouderde en verouderde distillaat kan hê. Hierdie faktore sluit die volgende in: geografiese ligging, klimaat toestande van die streek van herkoms, wingerdboupraktyke, graad van rypheid, druifvarieteit, wynoes variasie, wynbou tegnieke, opberging van basiswyn voor distillasie, distillasie tegnieke, ouderdom en oorsprong van akkerhout vir die veroudering, asook tot watter mate die vat gerooster is. Die samestelling van geur in wyn en gedistilleerde produkte soos brandewyn is uiters kompleks. 'n Menigte samestellings kan deel vorm van die inhoud van die geur, en dit is raar dat 'n bepaalde verbinding alleenlik verantwoordelik is vir 'n kenmerkende geur. Weens die verskeidenheid van produksie faktore, aroma en smaak is volledige kennis van brandewyn ingewikkeld en kompliseerd om te verstaan. In kommersiële brandewynproduksie, maak standaard werksprosedures nie voorsiening vir aparte distillasie van basiswyn van verskillende produsente nie, en die vermenging van basiswyn van verskillende streke en produsente kom voor. Dit maak dit moeilik om te bepaal of die kwaliteit van die basiswyn of die distillaat na die neergelegde periode van houtveroudering, in werklikheid 'n beslissende indikasie op die kwaliteit van die verouderde produk is. Daarom is een van die doele van hierdie studie om te bepaal of daar meriete in is om brandewyn basiswyn van die verskillende produsente en streke apart te berg en te verstook. Dit is gedoen deur eerstens, die effek van demografiese en produksie faktore op die samestelling van brandewyn basiswyn te bepaal. Daarna, om die invloed van brandewyn basiswynsamestelling op die kwaliteit van onderskeidelik die onverouderde distillate sowel as die uiteindelike styl en kwaliteit van die 3 jaar oue houtverouderde potketel distillate, te bepaal. Vir hierdie doel, is vier potketels met 'n kapasiteit van 2000 liters elk geïsoleer en vir kommersiële skaal distillasies van 33 en 25 brandewyn basiswyne in 1999 en 2000, ondeskeidelik, by DisteIl Distillerdery, Worcester verstook. Die eksperimentele uitleg wat in hierdie studie gebruik is, ewenaar DisteIl se standaard verstokingsprosedures vir kommersiële brandewynproduksie. Chenin blanc en Colombar is die twee mees populêre druifvarieteite vir die maak van brandewyn basiswyn in Suid-Afrika. As gevolg van die kompleksiteit van die brandewyn produksieproses, is die eerste gedeelte van die studie gefokus op die Suid-Afrikaanse jong Chenin blanc wyne, met 'n oorheersende fermentasie geur. Die konsentrasie van iso-amyl asetaat, heksiel asetaat, etiel kaprilaat, etiel kapraat, 2-phenetiel asetaat en oktanoë suur was aansienlik hoër in wyne wat met goud en silwer medaljes bekroon is en neem aansienlik af met afname in kwaliteit kategorieë. Etiel laktaat vertoon die teenoorgestelde patroon. 'n Kwaliteit voorspellersmodel, gebaseer op die gedrag van 21 vlugtige komponente was opgestel. Die model het redelike akkuraatheid getoon op wyne van dieselfde oesjaar as waarop oorspronklik opgelei. Die model se voorspellingsakkuraatheid was aansienlik swakker toe dit vergelyk getoets is met wyne van 'n nuwe oesjaar. Die hoeveelheid oesjare, hoeveelheid wyne per oesjaar en die hoeveelheid verbindings gebruik in hierdie model sal die voorspellingsakkuraatheid beïnvloed. Sewe-en-twintig vlugtige komponente was gekwantifiseer in 33 en 25 brandewyn basiswyne, die onverouderde en 3 jaar oue distillate vanaf 1999 en 2000, onderskeidelik. Variasie ontledings (ANOVA) en klassifikasie en regressie ontledings (CART) ontledings wys dat oesjaar, streek, parstyd, keuse van kultivar en gisrasse In aansienlike invloed op die vlugtige samestelling van brandewyn basiswyne asook hul onverouderde en 3 jaar distillate het. Hierdie faktore, sowel as die vlugtige verbinding samestellings, beinvloed ook bevind die sensoriese kwaliteit van hierdie produkte. Basiswyne, onverouderde en 3 jaar oue distillate wat vanuit die De Doorns streek, wat hoofsaaklik tafeldruif kultivars is, is van In swakker kwaliteit as die ander streke. Produkte wat gemaak is van druiwe wat vroeg in die seisoen gepars is, was van beter kwaliteit. Die vlugtige geurkomponentsamestellings het tussen die basiswyne en distillate van die 1999 en 2000 oesjare verskil, ongeag of party van die monsters gedeeltelike of volledige appelmelksuurgisting ondergaan het. Gevolglik, die konsentrasie van kwaliteitaanwysende komponente mag van seisoen tot seisoen verskil. Die verhouding tussen die kwaliteit van die brandewyn basiswyne en die konsentrasie van n-butanol, iso-amiel asetaat, etiel laktaat, etiel kaprilaat, oktanoë- en dekanoë suur was dieselfde soos gerapporteer oor die jong Chenin blanc wyne. In onverouderde distillate, het verhoogde vlakke van etiel laktaat In negatiewe invloed op distillaat kwaliteit veroorsaak. Iso-amiel asetaat, heksiel asetaat, etiel kaproaat, etiel kaprilaat, n-butanol, oktanoë suur, etiel kapraat en dekanoë suur In positiewe korrelasie, terwyl iso-butanol, etiel laktaat, asynsuur, asetaldehied en etiel asetaat betekenisvolle negatiewe korrelasie met 3jaar oue distillaat kwaliteit bewys. Beskrywende sensoriewe analises op geselekteerde, middelmatige en swak kwaliteit distillate (gedoen deur gebruik making van die Suid-Afrikaanse Brandewyn Aromawiel) wys dat daar klein verskille tussen die profiele van goeie en middelmatige distillate is. Daar is egter aansienlike verskille tussen goeie en swak kwaliteit distillataat profiele regdeur die drie jaar verouderingsperiode. Na 3 jaar van houtveroudering kan die geur profiel van swak kwaliteit distillate uitgeken word aan kruid- en houtagtige geure, wat meer intens as die vrugagtige geure is. Goeie kwaliteit distillate het intense vrugagtige-aroma eienskappe. Vlugtige verbinding konsentrasie verskille is waargeneem gedurende en na die 3jaar houtverouderingsperiode in vate wat van ouderdomme verskil. Distillate wat in nuwe blokkies vate verouder is, vertoon aansienlike verskille in vlugtige en houtkomponent samestellings na 3 jaar wanneer dit met die, wat in die oorblywende ouer vate verouder is, vergelyk word. Die styl klassifikasie van die 3 jaar oue potketeldistillaat was deur demografiese en produksie faktore sowel as vlugtige verbinding samestellings beïnvloed, maar nie met die sensoriese kwaliteit van die distillate nie. In opsomming, oesjaar, streek, kultivar, parstyd en keuse van gisrasse het 'n aansienlike invloed op die vlugtige komponent samestelling van die brandewyn basiswyne, onverouderde en 3 jaar oue potketel distillate, wat weer op hul beurt die sensoriese kwaliteit van die onderskeidelike produkte beïnvloed. Die effek van hierdie faktore kan nie in isolasie gemeet word nie, aangesien dit gesamentlik die kwaliteit van die produkte beïnvloed. Van 'n kommersiële perspektief het hierdie studie 'n waardevolle indikasie gelewer van hoe produksie en demografiese faktore die kwaliteit en styl van potketelbrandewyn kan beïnvloed. Daarom word voorgestel dat toekomstige brandewyn basiswyn innames, sover as moontlik, voorsiening moet maak om wyne van dieselfde kultivar, uit dieselfde streek, parsseisoen inaggeneem, of kombinasie daarvan, met 'n mindermate die gisrasse in aanmerking geneem, gelyktydig vir verstoking by die distilleerderye ontvang word sodat hierdie wyne apart van wyne met ander bogenoemde variasies verstook en verouder kan word. Brandy -- South Africa Wine and wine making -- South Africa
42	Manipulation of the taste of Regal Seedless (Vitis vinifera L.) table grapes Fraser, W. J. 03 1900 (has links) Thesis (MscAgric (Viticulture and Oenology))--University of Stellenbosch, 2007. / Regal Seedless is a white, seedless grape which has the potential to become a profitable cultivar for the table grape producer since it has the advantages of early season harvesting and inherently large berries. There is, however, a downside to this cultivar, namely the seasonal occurrence of an unacceptable, astringent taste. This negative taste affects the demand by local and international markets. The astringency perception is due to the presence of phenolic compounds. It is well known that the phenolic composition and concentration change during the ripening of the grape. Different postharvest treatments are applied to fresh fruit like persimmons to remove astringency. These treatments include the use of carbon dioxide, nitrogen and ethanol. The aim of this study was to determine the optimum maturity level for Regal Seedless where the phenolic concentration is the lowest and the astringent taste acceptable. The use of postharvest treatments to manipulate the taste and the phenolic content, were also investigated. The effect on other quality parameters like total soluble solids (TSS), pH and total titratable acidity (TTA) were also evaluated. Dissertations -- Agriculture Theses -- Agriculture Theses -- Viticulture and oenology Table grapes -- Biotechnology Fruit -- Flavor and odor
43	The influence of different barrels and oak derived products on the colour evolution and quality of red wines Fourie, Benjamin A. January 2005 (has links) Thesis (MScAgric) -- Stellenbosch University, 2005. / ENGLISH ABSTRACT: Winemakers or producers are under constant pressure to reduce the operational costs for the production of wine. The reason for this being threefold: Firstly, the number of cellars and estates locally, and internationally, has grown immensely. Thus, the competition on both the national and international front has put producers under pressure to reduce their production cost in order to survive the explosion of brand possibilities on the consumer's horizons. Secondly, the exchange rate has been one of the most unpredictable variables which highlight the importance of scenario planning and sufficient financial planning in order to overcome significant exchange rate fluctuations which may cause financial strain for the business. Thirdly, the benefits of using expensive oak barrels for the maturation of premium quality wines are undisputable. These benefits include the clarification and decarbonation of wines, decrease in the astringency of tannins ("softening of tannins"), the evolution of colour, providing complementary oak aromas which increase the complexity and finesse of these wines and stabilising the colloid structure of the maturing wine. The greatest disadvantages remain nevertheless that it is a costly and labour intensive operation. Oak is an essential part of the flavour profile of many premium quality wines, and there is still a growing market demand for these wines. The use of oak barrels for the maturation of premium red wines, incorporates a specific flavour dimension to the wine (and adding value), has been the traditional way of storing wines. Well known cellars and Estates all over the world have build remarkable profiles and identities for their brands. To alter any principles regarding the use of oak will alter the style of the wines and will beyond any doubt influence their brand image negatively. Chapter 1 gives an introduction and the main aims of the study. The phenolic composition of grapes and oak are a complex mixture of different molecules which are discussed in Chapter 2. These include those responsible for the colour (anthocyanins), taste (mainly the tannins) and aroma of the wine. The composition of the oak barrel can be influenced by its origin, seasoning of the oak, toasting of the staves, age of the barrel etc. These factors all affect the chemical composition of the oak (lactones, volatile phenols, carbohydrate volatiles, hydrolysable tannins etc.) and ultimately, the wine. The chemical reactions taking place in wine during ageing are also complex, which makes maturation and research of wine in oak a complex business. The challenge, thus, developed to sustain the flavour profiles (oak attributes) and to reduce the operational costs, without influencing the identity or profile of the brand negatively. The use of oak derived products like chips, dust, blocks, staves, balls and even extracts was proposed, although it is considered by-products of the cooperage profession. Some of the major disadvantages of the use of oak derived products still remain the limited control over the production process. This may lead to inconsistency in the quality of these products. Nevertheless, the use of oak derived products and the availability of these products have grown significantly and with it a need for research on this field. Chapter 3 address the results obtained from the maturation of Pinotage, which is uniquely South African, and Shiraz wines, in different oak type barrels (French vs. American vs. Russian), as well as treatments with various oak derived products, and the influence of these oak products on the evolution of colour, phenolic development and quality of the wines during ageing. The results obtained in this project correlated with findings in the literature. The colour density, percentage of red pigment colour and S02 resistant pigments increased, especially in the first three to six months during ageing in barrels as a result of ellagic tannin extraction from the barrels and polymerisation reactions, but decreased later as maturation progresses as a result of precipitation. In some cases the use of oak increased the colour density significantly with almost 40%. The colour density, total red pigment colour and total phenolic composition decreased during bottle maturation as a result of polymerisation. No significant colour differences between the barrel types could, however, be detected. The use of oak derived products showed the same tendencies for all colour dimensions, although no significant differences could be detected between the treatments. The most significant difference was that new oak barrels contributed more to the development of colour compared to the oak treatments. The Gelatine index gives an indication of the degree of polymerisation of tannins; higher values will indicate tannins which are highly reactive and will cause an astringent mouth feel. The values should decrease as maturation progresses and tannins polymerise. Little differences between barrel types (French vs. American vs. Russian) were found in the one Shiraz, but in the two Pintage wines the index was the lowest in the wines matured in French oak after 36 months bottle ageing. Sensorial tests indicated little quality differences after 36 months between the different oak types The American oak barrels had, in general, a more "oaky bouquet", even after 36 months in the bottle. Pinotage matured with different alternative oak products showed that chips added to barrels tended to give a higher oak aroma, with a lower fruit compared to the other treatments. The same wine matured in new barrels, as expected, also had a very high oak aroma compared to the same wine matured in older barrels. This led to a higher fruit perception in the latter wines. Lees contact is a practice more commonly used in the production of white wines, but may be a dangerous practice in the production of red wines. Chapter 4 reports on the effect of lees contact during ageing of red wine on the micro flora and colour after 12 month maturation. No significant differences in microbial analysis were detected during of barrel maturation between the wines matured in the lees and the filtered wines for acetic acid, yeast and lactic acid bacteria. The initial pH differences during cold maceration and fermentation, however, did influence these numbers, with higher numbers being observed at higher pH values. However, colour differences could be detected. The concentration of yellow brown pigments (measured at 420 nm) was lower in the lees matured wines than in the filtered· wines which underwent malolactic fermentation in the barrel. Other colour differences that could be detected were higher colour density and total red pigment colour in wines as a result of longer skin contact (due to slower alcoholic fermentation rate). Thus, manipulation of the skins during alcoholic fermentation, the use of barrels and/or oak derived products in various stages of vinification and maturation of wines and additional practices as maturation on lees may be thus be used to set a certain style of wine which meet a specific market demand, trend or style. Chapter 5 summarises the results obtained and future research to be done on wood and wine. This study, however, clearly showed that the origin and oak type does not influence the colour as much as the aroma and taste of red wine under South African conditions. / AFRIKAANSE OPSOMMING; Wynmakers of produsente word onder gedurige druk geplaas om die produksiekoste van wyn te verlaag. Die redes hiervoor is drieledig: Eerstens het die getal kelders en landgoedere op nasionale en internasionale vlak geweldig toegeneem. Dus, die kompetisie op beide nasionale en internasionale gebied plaas produsente onder druk om die produksie koste van die wyn te verminder om sodoende finansieel die ontploffing van nuwe moontlike wyne op die horison van die verbruiker te oorleef. Tweedens, die wisselkoers was altyd een van die meer onvoorspelbare veranderlikes wat die belangrikheid van scenario-beplanning en weldeurdagte finansiele beplanning beklemtoon om sodoende groat veranderinge in die wisselkoers, wat moontlike finansiele druk in die besigheid mag veroorsaak, te oorkom. Derdens, een van die grootste uitgawes in die produksie proses van is die verouderingskomponent van kwaliteitswyn. Die voordele van die gebruik van eikehout vate in die verouderingsproses van rooiwyne is welbekend. Hierdie voordele sluit in die suiwering van die wyn in terme van soliede partikels , dekarbonisering (C02-ontgasting}, afname in die vrank smaak ("sagtheid van die tanniene), die ontwikkeling van die kleur van die wyn, toevoeging van komplementere hout boeketstowwe wat bydrae tot die kompleksiteit van die wyn, asook die stabilisering van die kollo"idale struktuur van die wyn. Die grootste nadeel bly, nieteenstaande, die geweldige koste verbonde aan vate, asook die hantering en onderhoud daarvan. Eike hout verwante boeketstowwe is 'n onmisbare komponent van die aroma profiel van baie kwaliteitswyne. Daar is 'n groeiende mark vir hierdie tipe wyne. Die gebruik van eikehout vate vir die veroudering van kwaliteitswyne, behalwe die bydrae van belangrike geurstowwe (een waarde), was nog altyd 'n tradisionele stap in die proses. Beroemde kelders reg oor die wereld het uitmuntende mark identiteite vir hulle self geskep, asook 'n "spesifieke identiteit" vir hulle wyn. Om enige beginsels aangaande die gebruik van eikehout te verander, sal sander twyfel die wynstyl verander en moontlik 'n negatiewe effek op die kelder se identiteit he. Hoofstuk 1 gee 'n inleiding en die hoof doelstellings van die studie. Die fenoliese samestelling van druiwe en eikehout bestaan uit 'n komplekse mengsel van verskillende molekules wat in Hoofstuk 2 beskryf word. Hierdie sluit in daardie verantwoordelik vir die kleur (antosianiene), die smaak (hoofsaaklik tanniene) en die aroma van die wyn. Die samestelling van die eikevat kan beinvloed deur die oorsprong, veroudering van die hout, roostering, ouderdom van die vat ens. Hierdie faktore beinvloed almal die samestelling van die houtvat (laktone, vlugtige fenole, hidroliseerbare tanniene ens.) en uiteindelik, die wyn. Die chemiese reaksies wat plaasvind tydens die veroudering van wyn is ook kompleks, wat die veroudering en navorsing van wyn in vate 'n komplekse proses kan maak. Die uitdaging, dus, het ontstaan om die organoleptiese profiel van die wyn (eikehout boeketstowwe) te behou en terselftertyd die produksiekoste van die wyn te verlaag. Die gebruik van eikehout verwante produkte soos skaafsels, blokkies, stawe en balke en selfs eikehout ekstrakte is aanbeveel, alhoewel dit gesien word as afvalprodukte van die kuiperye Een van die grootste nadele van eikehout alternatiewe produkte is egter die beperkte kwaliteitskontrole oor die produksieproses. Dit mag lei tot wisselvalligheid in die kwaliteit van hierdie produkte. Nieteenstaande het die gebruik van eike houtverwante produkte en die beskikbaarheid van hierdie produkte geweldig toegeneem en tesame daarmee die behoefte aan navorsing hieroor. Hoofstuk 3 bespreek resultate van die gebruik van verskillende eikehout tipe vate (Frans vs Russies vs Amerikaans), asook die gebruik van eikehout verwante produkte, op die kleur ontwikkeling, fenoliese samestelling en kwaliteit van Pinotage (eie aan Suid-Afrika) en Shiraz wyne gedurende vat en bottel veroudering. Die ontwikkeling van kleur het verskeie unieke dimensies en resultate wat verkry is in hierdie projek stem ooreen met literatuur. Die kleurdigtheid, persentasie rooi pigment en 802 weerstandbiedende pigmente het toegeneem met veroudering in houtvate (veral in die eerste drie tot ses maande) as gevolg van ellagitanniene wat geekstraeer word en gepolimerisasie, maar het later gedurende veroudering afgeneem as gevolg van presipitasie reaksies. In sekere gevalle het die kontak met hout die kleurdigtheid met tot 40% vermeerder. Die kleurdighteid, totale rooi pigmente en totale fenole het tydens bottelverouding afgeneem a.g.v. polimerisasie. Geen merkwaardige verskille kon egter tussen die verskillende vattipes gevind word nie. Verskille tussen die houtverwante produkte was ook klein en het diesefde tendense getoon as die vate. Nuwe vate se impak op die kleurprofiel en ontwikkeling van verouderde rooiwyne was egter meer beduidenswaardig as die gebruik van gebruikte vate en behandelings met eikehout verwante produkte. Die gelatien indeks verwys na die toestand van polimerisasie van tanniene. Hoer waardes kan verwag word in jong wyne en dui op hoogs reaktiewe tanniene. Die waarde sal afneem soos tanniene polimere vorm met veroudering en sal dus 'n veel minder vrank mondgevoel tot gevolg he. Klein verskille tussen die vat tipes (Frans vs Amerikaans vs Russies) is opgemerk in die een Shiraz, maar in die twee Pinotage wyne was die indeks die laagste in die wyne verouder in Franse eikehout na 36 maande se bottelveroudering. Sensoriese toetse het aangedui dat daar klein verskille gevind is tussen die verskillende eiketipes. Die wyn verouder in Amerikaanse eik het, in die algemeen, 'n sterker eikehoutkarakter gehad na 36 maande bottelveroudering. Wyn verouder met verskillende alternatiewe houtprodukte het aangetoon dat eikehouskaafels in vate 'n sterker eikehoutkarakter aan die wyn gegee het met 'n laer vrugtige aroma in vergelyking met die ander behandelings. Dieselfde wyn verouder in nuwe vate het oak, soos verwag, 'n sterk hout boeket gehad in vergelyking met die verouder in ouer vate. Dit het dan oak gelei dat laasgenoemde wyne 'n sterker vrug aroma gehad het. Veroudering van wit wyne op moer is 'n algemene praktyk, alhoewel dit minder toegepas word op rooiwyne as gevolg van verwante gevare. Hoofstuk 4 bespreek die effek van moerkontak op die mikrobiese en kleursamestelling van rooiwyn tydens 12 maande se houtveroudering. Geen noemenswaardige verskille is egter verkry tussen die wyne verouder op die moer en die filtreerde wyne vir asynsuur-, melksuurbateriee en gisgetalle nie. Aanvanklike pH verskille tydens koue masserasie en alkoholiese fermentasie het egter hierdie getalle beinvloed, met hoer ·getalle verkry in die hoer pH wyn. Die wyne wat appelmelksuurgisting in die vate ondergaan het en verouder is op die moer het egter 'n laer konsentrasie geelbruin pigmente (gemeet by 420 nm) as die gefiltreerde wyne. Ander kleurverskille sluit in hoer kleurdigtheid en totale rooi pigmente as gevolg van langer dopkontak (stadiger alkoholiese fermentasie). Manipulering van die doppe voor en tydens alkoholiese gisting, die gebruik van eikehoutvate of eikehoutverwante produkte, of kombinasies daarvan tydens verskillende produksie fases en ander praktyke soos moer kontak, kan dus gebruik word am 'n sekere styl wyn op markversoek daar te stel. Hoofstuk 5 som die resultate op, asook toekomstige navorsingsmoontlikhede wat op die gebied van hout en wyn gedoen kan word. Hierdie studie het egter duidelik aangedui dat die eikehout oorsprong en tipe die kleur nie so baie beinvloed soos die aroma en smaak van die wyn onder Suid-Afrikaanse kondisies nie. Wine and wine making Wine -- Color Wine -- Flavor and odor Dissertations -- Agriculture Theses -- Agriculture
44	Invloed van doppenetrasieweerstand op die oesstadium van druiwe Van Dyk, B. W. (Burger Wynand) January 1992 (has links) Thesis (MScAgric)--Stellenbosch University, 1992. / One microfiche copy / ENGLISH ABSTRACT: The possibility of harvesting grapes at an earlier stage of maturity, based on differences in glucose and fructose concentration which influence the sweetness of grapes, was investigated. Although differences between cultivars were found the extent was not such that a specific cultivar could be selected in order to harvest at a lower sugar concentration, but with the same sweetness. Certain characteristics of table and wine grape cultivars with respect to anatomical composition and skin penetration resistance (SPR) were also investigated in order to ascertain the extent to which grapes would resist external damage, and to what extent turgor and skin thickness contributed to SPR. Daily variances in SPR confirm that not only skin strength, but also the turgor of the grape berry contributed to SPR. Skin penetration resistance seems to be a good criterion of the extent to which cultivars would resist external damage, because it is based on the toughness of the skin and the turgor of the berry. / AFRIKAANSE OPSOMMING: Die moontlikheid van vroeer oes op grond van verskille in die glukose- en fruktosekonsentrasie wat 'n invloed op die soetheid van druiwe mag he, is ondersoek. Daar is gevind dat die verskille wat tussen cultivars voorkom nie van so 'n grootte-orde is dat 'n spesifieke cultivar geselekteer kan word ten einde by 'n laer totale suiker, maar by dieselfde soetheidsgraad, te kan oes nie. Verder is sekere eienskappe van tafel- en wyndruifcultivars t.o.v. anatomiese samestelling en doppenetrasieweerstand (DP\V) ondersoek om die moontlike weerstand teen eksterne beserings en die mate waartoe turgor en dopdikte 'n invloed daarop mag uitoefen, _vas te stel. Daaglikse variasie in DPW het bevestig dat die DPW nie alleen afhanklik is van dopsterkte nie, maar ook van die turgor van die korrel. Doppenetrasieweerstand blyk 'n goeie maatstaf te wees vir die mate waartoe cultivars weerstand hied teen sekere eksterne beserings omdat dit gebaseer is op dopsterkte en turgor van die korrel. Grapes -- Disease and pest resistance Grapes -- Harvesting time Fruit -- Flavor and odor Theses -- Agriculture Dissertations -- Agriculture
45	Bromophenols in Hong Kong dried seafood, their quantities and other volatile compounds in the cultured giant grouper (Epinephelus lanceolatus). January 2012 (has links) Lam, Hon Yiu. / "November 2011." / Thesis (M.Phil.)--Chinese University of Hong Kong, 2012. / Includes bibliographical references (leaves 122-135). / Abstracts in English and Chinese. / Abstract (in English) --- p.i / Abstract (in Chinese) --- p.iv / Acknowledgement --- p.vi / Contents --- p.vii / List of Abbreviations --- p.xiii / List of Figures --- p.xiv / List of Tables --- p.xvii / Chapter 1 --- Literature review / Chapter 1.1 --- Introduction --- p.1 / Chapter 1.2 --- Flavor of fish --- p.3 / Chapter 1.2.1 --- Carbonyls (aldehydes and ketones) and alcohols --- p.4 / Chapter 1.2.2 --- Sulfur-containing compounds --- p.5 / Chapter 1.2.3 --- Thermally-induced flavor --- p.5 / Chapter 1.2.4 --- Deteriorated fish flavor --- p.6 / Chapter 1.2.5 --- Autoxidation --- p.7 / Chapter 1.2.6 --- Bromophenols --- p.8 / Chapter 1.3 --- Bromophenols in aquaculture --- p.8 / Chapter 1.3.1 --- General properties of bromophenols --- p.9 / Chapter 1.3.2 --- Biosynthetic pathway of bromophenol in marine algae --- p.12 / Chapter 1.3.3 --- Thresholds of bromophenols --- p.14 / Chapter 1.3.4 --- Toxicity of bromophenols --- p.17 / Chapter 1.4 --- Giant Grouper --- p.19 / Chapter 1.4.1 --- Living Habitat of Giant Grouper --- p.19 / Chapter 1.4.2 --- Biological features of Giant Grouper --- p.23 / Chapter 1.4.3 --- Aquaculture of Giant Grouper --- p.23 / Chapter 1.5 --- Flavor analysis and extraction methods --- p.23 / Chapter 1.5.1 --- Solvent extraction --- p.25 / Chapter 1.5.2 --- Simultaneous Steam Distillation/Extraction --- p.25 / Chapter 1.5.3 --- Headspace sampling --- p.27 / Chapter 1.5.4 --- Gas Chromatography/Olfactometry (GCO) --- p.28 / Chapter 1.5.5 --- Food chemistry and Odor Threshold Value --- p.30 / Chapter 2 --- Distribution of bromophenols in selected Hong Kong dried seafood / Chapter 2.1 --- Introduction --- p.33 / Chapter 2.2 --- Materials and Methods --- p.34 / Chapter 2.2.1 --- Sample preparation --- p.34 / Chapter 2.2.2 --- "Preparation of the internal standard, Pentachloroanisole" --- p.35 / Chapter 2.2.3 --- Simultaneous steam distillation-solvent extraction (SDE) --- p.35 / Chapter 2.2.4 --- Gas chromatography-mass spectrometry (GC-MS) --- p.36 / Chapter 2.2.5 --- Compound identification --- p.37 / Chapter 2.2.6 --- Quantification of compounds --- p.37 / Chapter 2.2.7 --- Recovery --- p.37 / Chapter 2.2.8 --- Odor activity value (OAV) --- p.38 / Chapter 2.2.9 --- Statistical Analysis --- p.38 / Chapter 2.3 --- Results and discussion --- p.39 / Chapter 2.3.1 --- Distribution of bromophenols in dried seafoods --- p.39 / Chapter 2.3.2 --- Bromophenol contents in dried seaweeds --- p.51 / Chapter 2.3.3 --- Bromophenol contents in dried crustacean --- p.52 / Chapter 2.3.4 --- Bromophenol contents in dried mollusks --- p.53 / Chapter 2.3.5 --- Bromophenol contents in dried-salted fishes --- p.54 / Chapter 2.3.6 --- Relationship between living habitat and bromophenol contents --- p.55 / Chapter 2.3.7 --- Flavor impact of bromophenols in dried seafood --- p.57 / Chapter 2.3.8 --- Comparison of bromophenol content in purchased dried laminaria with Qingdao seaweed powder and bloodworms --- p.64 / Chapter 2.4 --- Conclusion --- p.67 / Chapter 3 --- Bromophenol content retention and fish quality in giant grouper / Chapter 3.1 --- Introduction --- p.70 / Chapter 3.2 --- Materials and Methods --- p.71 / Chapter 3.2.1 --- Abbreviation of treatment groups --- p.71 / Chapter 3.2.2 --- Sample preparation --- p.72 / Chapter 3.2.3 --- Ingredients --- p.72 / Chapter 3.2.4 --- Production of fish feed --- p.73 / Chapter 3.2.5 --- Preparation of the internal standard，Pentachloroanisole --- p.73 / Chapter 3.2.6 --- Simultaneous steam distillation-solvent extraction (SDE) --- p.75 / Chapter 3.2.7 --- Gas chromatography-mass spectrometry (GC-MS) --- p.75 / Chapter 3.2.8 --- Bromophenol identification and quantification --- p.76 / Chapter 3.2.9 --- Recovery of bromophenols --- p.76 / Chapter 3.2.10 --- Muscle color determination --- p.76 / Chapter 3.2.11 --- Texture analysis --- p.77 / Chapter 3.2.12 --- Moisture determination --- p.78 / Chapter 3.2.13 --- Ash determination --- p.78 / Chapter 3.2.14 --- Fat determination --- p.78 / Chapter 3.2.15 --- Protein determination --- p.79 / Chapter 3.2.16 --- Statistical Analysis --- p.80 / Chapter 3.3 --- Results and discussion --- p.80 / Chapter 3.3.1 --- Muscle color of giant grouper --- p.81 / Chapter 3.3.2 --- Texture of giant grouper --- p.85 / Chapter 3.3.3 --- Proximate analysis of giant grouper --- p.86 / Chapter 3.3.4 --- Bromophenol depuration of giant grouper --- p.92 / Chapter 3.4 --- Conclusion --- p.101 / Chapter 4 --- Volatile compounds in giant grouper / Chapter 4.1 --- Introduction --- p.102 / Chapter 4.2 --- Materials and Methods --- p.103 / Chapter 4.2.1 --- Sample preparation --- p.103 / Chapter 4.2.2 --- "Preparation of the internal standard, 2,4,6Trimethylpyridine (TMP)" --- p.104 / Chapter 4.2.3 --- Dynamic headspace (purge-and-trap) --- p.104 / Chapter 4.2.4 --- Simultaneous steam distillation-solvent extraction (SDE) --- p.105 / Chapter 4.2.5 --- Gas chromatography-mass spectrometry (GC-MS) --- p.105 / Chapter 4.2.6 --- Compound identification --- p.106 / Chapter 4.2.7 --- Quantification of compounds --- p.106 / Chapter 4.2.8 --- Recovery --- p.107 / Chapter 4.2.9 --- Odor activity value (OAV) --- p.108 / Chapter 4.2.10 --- Statistical analysis --- p.108 / Chapter 4.3 --- Results and discussion --- p.108 / Chapter 4.3.1 --- Comparison of extraction between dynamic headspace and SDE --- p.108 / Chapter 4.3.2 --- Flavor profile of giant grouper --- p.113 / Chapter 4.3.2.1 --- carbonyls and alcohol --- p.113 / Chapter 4.3.2.2 --- Other aroma volatile compounds in giant grouper --- p.116 / Chapter 4.3.3 --- Giant grouper tainted by water contamination --- p.116 / Chapter 4.4 --- Conclusion --- p.118 / Chapter 5 --- General conclusion --- p.119 / References --- p.122 / Appendix --- p.136 Phenols--Physiological effect Groupers Groupers--China--Hong Kong Volatile organic compounds--Analysis Seafood--Flavor and odor
46	The effect of wine matrix on the analysis of volatile sulfur compounds by solid-phase microextraction-GC-PFPD Davis, Peter M. (Peter Mathew) 30 March 2012 (has links) Constituents of the wine matrix, including ethanol, affect adsorption of sulfur volatiles on solid-phase microextraction (SPME) fibers, which can impact sensitivity and accuracy of volatile sulfur analysis in wine. Several common wine sulfur volatiles, including hydrogen sulfide (H2S), methanethiol (MeSH), dimethyl sulfide (DMS), dimethyl disulfide (DMDS), dimethyl trisulfide (DMTS), diethyl disulfide (DEDS), methyl thioacetate (MeSOAc), and ethyl thioacetate (EtSOAc), have been analyzed with multiple internal standards using SPME-GC equipped with pulsed-flame photometric detection (PFPD) at various concentrations of ethanol, volatile-, and non-volatile-matrix components in synthetic wine samples. All compounds exhibit a stark decrease in detectability with the addition of ethanol, especially between 0.0 and 0.5%v/v, but the ratio of standard to internal standard was more stable when alcohol concentration was greater than 1%. Addition of volatile matrix components yields a similar decrease but the standard-to-internal-standard ratio was consistent, suggesting the volatile matrix did not affect the quantification of volatile sulfur compounds in wine. Non-volatile wine matrix appears to have negligible effect on sensitivity. Based on analyte:internal standard ratios, DMS can be accurately measured against ethyl methyl sulfide (EMS), the thioacetates and DMDS with diethyl sulfide (DES), and H₂S, MeSH, DEDS, and DMTS with diisopropyl disulfide (DIDS) in wine with proper dilution. The developed method was then used to quantify sulfur compounds in 21 various California wines. H₂S and MeSH were found in higher concentrations in white varietals, while DMS was slightly higher in red varietals, particularly cabernet sauvignon and merlot. Trace amounts of DEDS and MeSOAc were found in almost all wines. DMS and DMTS were found in all wines, in some instances above reported thresholds. / Graduation date: 2012 spme wine sulfur Wine and wine making -- Analysis Wine and wine making -- Chemistry Wine -- Flavor and odor Sulfur compounds
47	Effects of Pediococcus spp. on Oregon Pinot noir Strickland, Matthew T. 18 September 2012 (has links) This research investigated the effects of Pediococcus spp. on Oregon Pinot noir wines. Pediococcus (P. parvulus (7), P. damnosus (1), P. inopinatus (1)) isolated from Oregon and Washington state wines demonstrated differences in their susceptibility to SO�� with some isolates growing well in model media at 0.4 mg/L molecular SO��. All isolates were all able to degrade p-coumaric acid to 4-vinyl phenol. The conversion of p-coumaric acid to 4-VP by pediococci resulted in accelerated production of 4-EP by B. bruxellensis in a model system. Growth of the pediococci isolates in Pinot noir wine resulted in a number of chemical and sensory changes occurring compared to the control. Very low concentrations of biogenic amines were measured in the wines with only wine inoculated with P. inopinatus OW-8 having greater than 5 mg/L. D-lactic acid production varied between isolates with OW-7 producing the highest concentration (264 mg/L). Diacetyl content of the wines also varied greatly. Some wines contained very low levels of diacetyl (< 0.5 mg/L) while others contained very high concentrations (> 15 mg/L) that were well above sensory threshold. Despite suggestions to the contrary in the literature, glycerol was not degraded by any of the isolates in this study. Color and polymeric pigment content of the wines also varied with wine inoculated with OW-7 containing 30% less polymeric pigment than the control. This may be related to acetaldehyde as a number of Pediococcus isolates, including OW-7, reduced the acetaldehyde content of the wine. Sensory analysis revealed differences in the aroma and mouthfeel of the wines compared to each other and to the control. In particular growth of some isolates produced wines with higher intensities of butter, plastic, and vegetal aromas while other also had lower perceived astringency. / Graduation date: 2013 Pinot noir (Wine) -- Oregon Lactobacillaceae Wine -- Flavor and odor Sulfur dioxide Wine and wine making -- Analysis
48	Flavor chemistry of irradiated milk fat Khatri, Lakho Lilaram 25 October 1965 (has links) Increasing interest has been shown in the irradiation sterilization and irradiation pasteurization of foods, but problems of off-flavors and odors are still unsolved, especially in the case of dairy products. From the flavor chemistry point of view, milk lipids are very highly susceptible to irradiation effects. Therefore, this investigation was designed to study some irradiation induced reactions involving flavor changes in the milk fat and to identify the volatile components produced in the milk fat upon irradiation. Milk fat, prepared from raw sweet cream and washed free of phospholipids, was first irradiated in the presence of air and under vacuum in glass vials at 4.5 Mrad with gamma rays from cobalt-60. The irradiation resulted in increase in TBA number, peroxide value, total monocarbonyls, bleaching of color, slightly rancid and typical candle-like off-flavors. Free fatty acids were also produced upon irradiation. The changes were more drastic in air along with production of a slight oxidized flavor. The monocarbonyls identified by column and paper chromatographic methods in irradiated milk fat include: C₁ through C₁₂, C₁₄ , and C₁₆ n-alkanals; C₃ through C₉, C₁₁, C₁₃ and C₁₅ alk-2-ones with only traces of C₆ and C₈ alk-2- ones; and C₅, C₆, C₉, and C₁₂ alk-2-enals. Irradiation of milk fat that had been dried over calcium hydride also caused free fatty acid production, especially short chain fatty acids. Methyl octanoate treated with calcium hydride and irradiated at 1.5, 3.0, 4.5, and 6.0 Mrad yielded small quantities of free octanoic acid, confirming that irradiation caused fission of the ester linkage even when traces of water were removed. The quantities of octanoic acid formed increased with increasing dose of irradiation. For identification of volatile components, the milk fat was irradiated in 307x409 'C' enameled cans under vacuum. The headspace analysis showed some air still left in the cans. Irradiation resulted in consumption of oxygen and production of hydrogen, carbon monoxide, carbon dioxide, and methane as identified in the headspace gases. The volatiles were isolated from the irradiated and control milk fats by low temperature, vacuum steam distillation at 40°C and 1-2 mm Hg. The volatile components were then extracted from the aqueous distillate with ethyl ether. The ethyl ether extract exhibited the typical candle-like defect. The ethyl ether concentrate was analyzed by combination of GLC and fast-scan mass spectrometric techniques. Identification of various components was achieved on the basis of mass spectral data and coincidence of gas chromatographic retention times. In the case of the components for which only GLC t[subscript r]/t[subscript r] evidence was available or the mass spectra obtained were not satisfactory, the identity assigned was only tentative. The volatile compounds that were positively identified to be present in irradiated milk fat are given below: n-Alkanes C₅ through C₁₇ 1-Alkenes C₅, C₇ through C₁₇ Fatty acids C₄, C₆, C₈ and C₁₀ n-Alkanals C₅ through C₁₁ Others γ-decalactone, δ-decalactone, 2-heptanone, benzene, ethyl acetate, chloroform, and dichlorobenzene. The tentative identification was obtained for the following compounds: γ-lactones C₆ and C₈ δ-lactones C₆, C₈, C₁₁, and C₁₂ 1, ?-alkadienes C₁₀, C₁₁, C₁₂, C₁₆ and C₁₇ iso-alkanes C₁₀, C₁₁, C₁₂, and C₁₃ Others methyl hexanoate, 2-hexanone, 4-heptanone and n-dodecanal. The compounds present in unirradiated control milk fat included: short chain fatty acids (C₄, C₆, C₈, and C₁₀), C₈, C₁₀, and C₁₂ δ-lactones, 2-heptanone, chloroform, dichlorobenzene, benzene, toluene, and ethyl-benzene. Only tentative identity was established for most of these components in control milk fat. Possible reaction mechanisms are presented for the formation of the compounds in irradiated milk fat. / Graduation date: 1966 Flavor Dairy products -- Analysis Dried milk Milk -- Pasteurization Milk -- Flavor and odor
49	Time-temperature effects on Cheddar cheese ripening : sensory and microbiological changes Kirby, Constance Lamb 07 December 1992 (has links) Graduation date: 1993 Cheddar cheese Cheese -- Microbiology Dairy products -- Sensory evaluation Dairy products -- Flavor and odor
50	Optimization of β-glucosidase activy in recombinant Saccharomyces cerevisiae strains Ranwedzi, Ntanganedzeni 12 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: Wine is a complex medium. Wine aroma, flavour and colour are important quality factors, but these can be influenced by many factors, such as grape-derived compounds that exist as free volatiles and also as glycosidically bound. The chemical composition of wine is determined by factors such as grape variety, geographic position, viticulture condition, microbial ecology of the grape and the winemaking process. The varietals aroma is determined by both the volatile and the non-volatile compounds, such as monoterpenes, norisoprenoids and benzene derivatives, which are naturally present in the wine. Monoterpenes are very important in the flavour and aroma of grapes and wine. They can be found in grapes and wine either in the free, volatile and odorous form, or in the glycosidically-bound, non-volatile and non-odorous form. The ratio of glycosidically-bound compounds to free aroma compounds is very high in the Gewürztraminer, Muscat and Riesling cultivars in particular. The glycosidic bonds can be hydrolysed either by the acid method or by using enzymes. The acid method is disadvantageous because it can modify the monoterpenes, whereas enzymatic hydrolysis has the advantage of not modifying the aroma character. The enzyme method of breaking the glycosidic bonds occurs in two successive steps: initial separation of glucose from the terminal sugar by a hydrolase (a-L-arabinofuranosidase, a-L-rhamnosidase or β-apiosidase, depending on the aglycone moiety), followed by the breaking of the bond between the aglycone and glucose by β-glucosidase. The enzyme β-glucosidase can be obtained from many plant (Vitis vinifera), bacterial, yeast or fungal sources. Most of the enzymes produced by these sources are not functional under the winemaking conditions of low pH, low temperature, high glucose and high ethanol content. However, β-glucosidases from fungal origins, particularly from Aspergillus spp., are tolerant of winemaking conditions. The idea of using the β-glucosidase gene from the fungus Aspergillus kawachii (BGLA), which is linked to the cell wall and the free β-glucosidase, was to determine if anchoring the enzyme to the cell wall will increase the activity of the enzyme compared to the free enzyme. Four plasmids, pCEL 16, pCEL 24, pDLG 97 and pDLG 98, were used in this study. BGLA that was cloned into the plasmids pCEL 24 and pDLG 97 was linked to CWP2, and in pDLG 98 it was linked to AGa1 anchor domains. All the plasmids were genome-integrated and expressed in the reference strain Saccharomyces cerevisiae 303-1A. All the transformants were grown in 2% cellobiose and showed higher biomass production compared to the reference strain. β-Glucosidase activity was also assayed and transformed strain W16 showed a fourfold increase in activity compared to the reference strain. There was no significant increase in the activity of the other transformed strains, W24, W97 and W98. Enzymatic characterisation for optimum pH and temperature was done – for all strains the optimum pH was 4 and the optimum temperature was 40ºC. The recombinant strains together with the reference strain were used to make wine from Gewürztraminer grapes. The levels of numerous monoterpenes were enhanced in the resultant wines. The concentration of nerol was increased fourfold, that of citronellol twofold, and geraniol was 20% higher than in the wild type. There was also an increase in the levels of linalool and a-terpinol, but this was not significant. In wines produced with W97, W98 and W24, monoterpene levels did not show a significant difference. In future, the expression of the W16 expression cassette in an industrial wine yeast strain could be performed. In combination with the production of enzymes such as a-arabinofuranosidase, a-rhamnosidase and β-apiosidase, which are involved in the first step of enzymatic hydrolysis, this wine strain could release the bound monoterpenes and enhance the aroma of the wine. / AFRIKAANSE OPSOMMING: Wyn is ‘n komplekse medium. Wynaroma, -geur en -kleur is belangrike kwaliteitsfaktore, hoewel hierdie kwaliteite deur verskeie faktore beïnvloed kan word, soos druifafgeleide verbindings wat as vry vlugtige stowwe teenwoordig kan wees of glikosidies gebind is. Die chemiese samestelling van wyn word bepaal deur faktore soos druifvariëteit, geografiese ligging, wingerdkundige toestande, mikrobiese ekologie van die druif en die wynbereidingsproses. Die variëteitsaroma word bepaal deur vlugtige en nie-vlugtige verbindings, soos monoterpene, norisoprenoïede en benseenderivate, wat natuurlik in die wyn voorkom. Monoterpene is baie belangrik vir die geur en aroma van druiwe en wyn. Monoterpene is teenwoordig in die druiwe en wyn in vry, vlugtige en geurige, of in glikosidiesgebinde, nie-vlugtige en nie-geurige vorms. Die verhouding van glikosidiesgebonde verbindings tot vry aromaverbindings is baie hoog, veral in die Gewürztraminer-, Muscat- en Riesling-kultivars. Glikosidiese verbindings kan deur óf die suurmetode óf die ensiemmetode gehidroliseer word. Die nadeel van die suurmetode is dat dit monoterpene kan modifiseer, terwyl die ensiemmetode die voordeel het dat dit nie die aromakarakter modifiseer nie. Die ensiemmetode waarmee die glikosidiese verbinding afgebreek word, vind in twee opeenvolgende stappe plaas: aanvanklike skeiding van glukose van die terminale suiker deur ‘n hidrolase (a-L-arabinofuranosidase, a-Lramnosidase of β-apiosidase, afhangende van die aglikoongedeelte), gevolg deur die verbreking van die verbinding tussen die aglikoon en glukose deur β- glukosidase. Die β-glukosidase-ensiem kan vanaf ‘n verskeidenheid plant- (Vitis vinifera), bakterie-, gis- en swambronne verkry word. Die meerderheid van die ensieme wat deur hierdie bronne geproduseer word, is nie onder die wynbereidingstoestande van lae pH, hoë temperatuur, hoë glukose en hoë etanol funksioneel nie. β- Glukosidase vanaf ‘n swamoorsprong, veral vanaf Aspergillus-spesies, kan egter wynbereidingstoestande verdra. Die idee agter die gebruik van die β-glukosidasegeen afkomstig van die swam Aspergillus kawachii (BGLA), wat aan die selwand en die vry β-glukosidase gekoppel is, was om te bepaal of die aktiwiteit van die ensiem in vergelyking met dié van die vry ensiem verhoog sou word indien die ensiem aan die selwand geanker is. Vier plasmiede, pCEL 16, pCEL 24, pDLG 97 en pDLG 98, is in hierdie studie gebruik. BGLA, wat in die plasmiede pCEL 24 en pDLG 97 gekloneer is, is gekoppel aan CWP2, en in pDLG 98 is dit aan AGa1-ankergebiede gekoppel. Al die plasmiede is in verwysingsras Saccharomyces cerevisiae 303-1A genoomgeïntegreer en uitgedruk. Al die transformante is in 2% sellobiose gegroei en het hoër biomassaproduksie as die verwysingsras getoon. β-Glukosidaseaktiwiteit is ook geëssaieer en die getransformeerde ras W16 het ‘n viervoudige verhoging in aktiwiteit in vergelyking met die verwysingsras getoon. Daar was geen noemenswaardige verhoging in die aktiwiteit van die ander getransformeerde rasse, W24, W97 en W98, nie. Ensimatiese karakterisering vir optimum-pH en - temperatuur is gedoen – vir al die rasse was die optimum-pH 4 en die optimumtemperatuur 40ºC. Die rekombinante rasse, tesame met die verwysingsras, is gebruik om wyn met Gewürtztraminer-druiwe te maak. Die vlakke van talryke monoterpene is in die gevolglike wyne verhoog. Die konsentrasie van nerol is viervoudig verhoog, dié van sitronellol tweevoudig, en geraniol was 20% hoër as in die wilde tipe. Daar was ook ‘n verhoging in die vlakke van linaloöl en a-terpinol, maar hierdie verhoging was nie noemenswaardig nie. In wyne wat met W97, W98 en W24 gemaak is, het die monoterpeenvlakke nie ‘n noemenswaardige verskil getoon nie. In die toekoms sal die uitdrukking van die W16-uitdrukkingskasset in ‘n industriële wyngisras uitgevoer kan word. In kombinasie met die produksie van ensieme soos a-arabinofuranosidase, a-ramnosidase, β-apiosidase, wat in die eerste stap van ensimatiese hidrolise betrokke is, sal hierdie wyngisras die gebonde monoterpene kan vrylaat en die aroma van die wyn kan verbeter. Wine and wine making -- Microbiology Wine -- Flavor and odor Saccharomyces cerevisiae Glucosidases Theses -- Wine biotechnology Dissertations -- Wine biotechnology

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