Stabilisasi pigmen antosianin ekstrak rosela dengan kopigmen asam galat dan asam tanat = Stabilization of anthocyanin pigment in roselle extract by copigmentation using gallic acid and tannic acid

Wenard, Vania Christella (2022) Stabilisasi pigmen antosianin ekstrak rosela dengan kopigmen asam galat dan asam tanat = Stabilization of anthocyanin pigment in roselle extract by copigmentation using gallic acid and tannic acid. Bachelor thesis, Universitas Pelita Harapan.

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Abstract

Pigmen antosianin berpotensi untuk dikembangkan sebagai pewarna alami. Salah satu sumber antosianin adalah kelopak bunga rosela. Pemanfaatan kelopak bunga rosela sebagai pewarna masih terbatas karena pigmen antosianin yang kurang stabil sehingga perlu distabilkan dengan metode kopigmentasi. Tujuan dari penelitian ini adalah melakukan stabilisasi pigmen antosianin menggunakan metode kopigmentasi dengan senyawa fenolat sebagai kopigmen. Kopigmen berupa asam galat dan asam tanat ditambahkan dengan rasio pigmen-kopigmen 1:50 dan 1:100. Perlakuan terpilih adalah asam tanat 1:100 yang dapat meningkatkan intensitas warna dengan nilai absorbansi sebesar 0,890 ± 0,040, memberikan efek batokromik dan hiperkromik paling tinggi serta memberikan kadar antosianin sebesar 13,41 ± 0,34 mg/L. Uji kromatografi lapis tipis menunjukkan adanya ikatan antara senyawa pigmen dan kopigmen. Ekstrak rosela yang telah dikopigmentasi dengan asam tanat 1:100 diuji stabilitasnya pada suhu 25oC, 40oC, 55oC, 70oC, dan 85oC serta pH 2, 4, 6, 8, dan 10. Hasil penelitian ini menunjukkan bahwa asam tanat mampu menstabilkan pigmen antosianin hingga mencapai suhu 70oC berdasarkan kadar antosianin (12,30 ± 0,41 mg/L) dan intensitas warna (0,792 ± 0,052). Pada kondisi berbagai pH, asam tanat mampu menstabilkan pigmen antosianin hingga pH 4 berdasarkan kadar antosianin (6,78 ± 0,21 mg/L) dan intensitas warna (0,310 ± 0,015). / Anthocyanins have the potential to be developed as natural colorants. One of many sources of anthocyanin pigments is roselle calyces. However, the utilization of roselle calyces as a colorant is limited because anthocyanins have low stability, so it needs to be stabilized by copigmentation. The purpose of this study was to stabilize anthocyanin pigments by copigmentation method using phenolic compounds as copigment. Copigments, such as gallic acid and tannic acid, were added with pigment-copigment ratios of 1:50 and 1:100. The selected treatment was tannic acid 1:100 which could increase the color intensity with an absorbance value of 0,890 ± 0,040, gave the highest bathochromic and hyperchromic effects with anthocyanin content of 13,41 ± 0,34 mg/L. Thin layer chromatography test showed the presence of bonds between pigment and copigment compounds. Roselle extract which had been copigmented using tannic acid 1:100 was tested for stability at temperatures of 25oC, 40oC, 55oC, 70oC, 85oC and pH 2, 4, 6, 8, 10. The results of this study showed that tannic acid was able to stabilize the anthocyanin pigment until it reaches a temperature of 70oC based on anthocyanin content (12,30 ± 0,41 mg/L) and color intensity (0,792 ± 0,052). At various pH conditions, tannic acid was able to stabilize anthocyanin pigments up to pH 4, based on anthocyanin content (6,78 ± 0,21 mg/L) and color intensity (0,310 ± 0,015).
Item Type: Thesis (Bachelor)
Creators:
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NIM
Email
ORCID
Wenard, Vania Christella
01034190030
vaniawenard@gmail.com
UNSPECIFIED
Contributors:
Contribution
Contributors
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Email
Thesis advisor
Handayani, Ratna
NIDN0311097601
handayani.ratna2@gmail.com
Uncontrolled Keywords: rosela ; pigmen antosianin ; kopigmentasi ; asam galat ; asam tanat
Subjects: T Technology > TP Chemical technology > TP368-456 Food processing and manufacture
Divisions: University Subject > Current > Faculty/School - UPH Karawaci > Faculty of Science and Technology > Food Technology
Current > Faculty/School - UPH Karawaci > Faculty of Science and Technology > Food Technology
Depositing User: Vania Christella Wenard
Date Deposited: 18 Jan 2023 03:46
Last Modified: 18 Jan 2023 03:46
URI: http://repository.uph.edu/id/eprint/52716

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