Kajian Peningkatan Pati Resisten yang Terkandung dalam Bahan Pangan Sebagai Sumber Prebiotik

  • Raden Haryo Bimo Setiarto
  • Betty Sri Laksmi Jenie
  • Didah Nur Faridah
  • Iwan Saskiawan
Keywords: autoclaving-cooling, food ingredients, lintnerized, prebiotic, pullulanase, resistant starch

Abstract

Prebiotics are food ingredients that selectively stimulate the growth of probiotic bacteria in the colon. Resistant starch (RS) is the starch that can not be digested by digestive enzymes and resistant to gastric acid so it can reach the colon to be fermented by probiotic bacteria. There are treatments to increase the content of RS such as: autoclaving-cooling cycling, combination of lintnerized with autoclaving-cooling, and combination of debranching pullulanase with autoclaving-cooling. The results of techno-economical study showed that the combination of fermentation followed by autoclaving-cooling can be used as an alternative technique to increase the content of resistant starch in food more effectively and efficiently.

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Author Biographies

Raden Haryo Bimo Setiarto
Pusat Penelitian Biologi, Lembaga Ilmu Pengetahuan Indonesia, Jl. Raya Jakarta-Bogor Km 46, Kawasan CSC Cibinong 16911
Betty Sri Laksmi Jenie
Departemen Ilmu dan Teknologi Pangan, Fakultas Teknologi Pertanian, Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680
Didah Nur Faridah
Departemen Ilmu dan Teknologi Pangan, Fakultas Teknologi Pertanian, Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680
Iwan Saskiawan
Pusat Penelitian Biologi, Lembaga Ilmu Pengetahuan Indonesia, Jl. Raya Jakarta-Bogor Km 46, Kawasan CSC Cibinong 16911

References

Aparicio-Saguilan A, Flores-Huicochea E, Tovar J, Garcia-Suarez F, Guiterrez-Meraz F, Bello-Perez LA. 2005. Resistant starch rich-powders prepared by autoclaving of native and lintnerized banana starch: partial characterization. Starch/Starke. 57(9): 405-412. http://doi.org/c7rb5p

Arief II, Jenie BSL, Astawan M, Witarto AB. 2010. Efektivitas probiotik Lactobacillus plantarum 2C12 dan Lactobacillus acidophilus 2B4 sebagai pencegah diare pada tikus percobaan. Media Peternakan. 33(3): 137-143. http://doi.org/d975w8

Asbar R. 2014. Peningkatan Pati Resisten Tipe III pada Tepung Singkong Modifikasi (Mocaf) dengan Perlakuan Pemanasan-Pendinginan Berulang dan Aplikasinya pada Pembuatan Mi Kering. [Thesis]. Bogor (ID): Institut Pertanian Bogor.

Asha R, Niyonzima FN, Sunil SM. 2013. Purification and Properties of Pullulanase from Bacillus halodurans. International Research Journal of Biological Sciences. 2(3): 35-43.

Baur-Marinovic M, Florian S, Muller-Schmehll K, Glatt H, Jacobasch G. 2006. Dietary resistant starch type 3 prevents tumor induction by 1,2-dimethylhydrazine and alters proliferation, apoptosis, and dedifferentiation in rat colon. Carcinogenesis. 27(9): 1849-1859. http://doi.org/b9bjhq

Birt DF, Boylston T, Hendrich S, Lane J, Hollis J, Li L, McClelland J, Moore S, Phillips GJ, Rowling M, Schalinske K, Scott MP, Whitley MP. 2013. Resistant Starch: Promise for Improving Human Health. Advances in Nutrition [Electronic Resource]. 4(6): 587-601. http://doi.org/7hd

Faridah DN, Rahayu WP, Apriyadi MS. 2013. Modifikasi Pati Garut (Marantha arundinacea) dengan Perlakuan Hidrolisis Asam dan Siklus Pemanasan-Pendinginan Untuk Menghasilkan Pati Resisten Tipe 3. Jurnal Teknologi Industri Pertanian. 23(1): 61-69.

[FAO] Food and Agricultural Organization. 2007. Technical meeting on preobitics. http://www.fao.org/ag/agn/agns/files/Prebiotics_Tech_Meeting_Report.pdf. Accessed on 22 November 2008.

Ferrini LMK, Rochaa TS, Demiate IM, Franco CLM. 2008. Effect of acid-methanol treatment on the physicochemical and structural characteristics of cassava and maize starches. Starch/Stärke. 60(8): 417-425. http://doi.org/c7rtv2

Gonzalez-Soto RA, Mora-Escobedo R, Hernandez-Sanchez H, Sanchez-Rivera M, Bello-Perez LA. 2007. The influence of time and storage temperature on resistant starch formation from autoclaved debranched banana starch. Food Research International. 40(2): 304-310. http://doi.org/fp2xz5

Granato D, Branco GF, Nazzaro F, Cruz AG, Faria J. 2013. Functional Food and Prebiotic Food Development: Trends, Concepts, and Products. Comprehensive Reviews in Food Science and Food Safety. 9(3): 292-302. http://doi.org/bn67s2

Higgins JA, Brown MA, Storlien LH. 2006. Consumption of resistant starch decreases postprandial lipogenesis in white adipose tissue of the rat. Nutrition Journal. 5(1): 25-33. http://doi.org/cp3zgq

Hovhannisyan G, Aroutiounian R, Glei M. 2009. Butyrate reduces the frequency of micronuclei in human colon carcinoma cells in vitro. Toxicology in Vitro. 23(6): 1028-1033. http://doi.org/d6c78n

Huebner J, Wehling RL, Hutkins RW. 2007. Functional activity of commercial prebiotics. International Dairy Journal. 17(7): 770-775. http://doi.org/fbf9g5

Jenie BSL, Widowati S, Kusumaningrum HD. 2010. Pengembangan Produk Tepung Pisang Dengan IG Rendah dan Sifat Prebiotik Sebagai Bahan Pangan Fungsional. Laporan Akhir Hibah Kompetitif Penelitian Sesuai Prioritas Nasional Batch II. Lembaga Penelitian dan Pengabdian kepada Masyarakat, Institut Pertanian Bogor.

Jenie BSL, Reski PP, Kusnandar F. 2012. Fermentasi Kultur Campuran Bakteri Asam Laktat dan Pemanasan Otoklaf Dalam Meningkatkan Kadar Pati Resisten dan Sifat Fungsional Tepung Pisang Tanduk (Musa parasidiaca formatypica). Jurnal Pascapanen. 9(1): 18-26.

Jenie BSL, Saputra MY, Widaningrum. 2013. Sensory Evaluation and Survival of Probiotics in Modified Banana Flour Yoghurt During Storage. Jurnal Teknologi dan Industri Pangan. 24(1): 40-47. http://doi.org/673

Kim JH, Sunako M, Ono H, Murooka Y, Fukusaki E, Yamashita M. 2009. Characterization of the C-terminal truncated form of amylopullulanase from Lactobacillus plantarum L137. Journal of Bioscience and Bioengineering. 107(2): 124-129. http://doi.org/fdtg6t

Leeman MA, Karlsson ME, Eliasson AC, Bjorck IME. 2006. Resistant starch formation in temperature treated potato starches varying in amylose/amylopectin ratio. Carbohydrate Polymers. 65(3): 306-313. http://doi.org/dk477v

Lehmann U, Jacobasch G, Schmiedl D. 2002. Characterization of resistant starch type III from banana (Musa acuminata). Journal of Agricultural and Food Chemistry. 50(18): 5236-5240. http://doi.org/cw89dg

Leong YH, Karim AA, Norziah MH. 2007. Effect of pullulanase debranching of sago (Metroxylon sagu) starch at subgelatinization temperature on the yield of resistant starch. Starch/Starke. 59(1): 21-32. http://doi.org/ctzsvc

Lesmes U, Beards EJ, Gibson GR, Tuohy KM, Shimoni E. 2009. Effects of Resistant Starch Type III Polymorphs on Human Colon Microbiota and Short Chain Fatty Acids in Human Gut Models. Journal of Agricultural and Food Chemistry. 11(2): 112-120. http://doi.org/d8p5d3

Liu Q. 2005. Understanding Starches and their Role in Foods. In: Food Carbohydrates: Chemistry, Physical Properties and Applications. Cui SW (editor). Boca Ratn Florida (US): RC Taylor & Francis. http://doi.org/d4nkgp

Miao M, Jiang B, Zhang T. 2009. Effect of pullulanase debranching and recrystallization on structure and digestibility of waxy maize starch. Carbohydrate Polymers. 76(2): 214-221. http://doi.org/czq84h

Moongngarm A. 2013. Chemical Compositions and Resistant Starch Content in Starchy Foods. American Journal of Agricultural and Biological Sciences. 8(2): 107-113. http://doi.org/676

Mun SH, Shin M. 2006. Mild hydrolysis of resistant starch from maize. Food Chemistry. 96(1): 115-121. http://doi.org/chtmcd

Mutungi C, Rost F, Onyango C, Jaros D, Rohm H. 2009. Crystallinity, thermal and morphological characteristics of resistant starch type III Produced by hydrothermal treatment of debranched cassava starch. Starch/Starke. 61(11): 634-645. http://doi.org/cfhwk2

Nuraida L, Hana, Dwiari SR, Faridah DN. 2008. Pengujian Sifat Prebiotik dan Sinbiotik Produk Olahan Ubi Jalar Secara In-Vivo. Jurnal Teknologi dan Industri Pangan.19(2): 89-96.

Nurhayati, Jenie BSL, Widowati S, Kusumaningrum HD. 2014. Komposisi Kimia dan Kristalinitas Tepung Pisang Termodifikasi Secara Fermentasi Spontan dan Siklus Pemanasan Bertekanan-Pendinginan. Agritech. 34(2): 146-150.

Okoniewska M, Witwer RS. 2007. Natural resistant starch: an overview of health properties a useful replacement for flour, resistant starch may also boost insulin sensitivity and satiety. New York (US): Nutritional Outlook.

Ozturk S, Koksel H, Kahraman K. 2009. Effect of debranching and heat treatments on formation and functional properties of resistant starch from highamylose corn starch. European Food Research and Technology. 229(1): 115-125. http://doi.org/c9nb2p

Ozturk S, Koksel H, Perry KWN. 2011. Production of resistant starch from acid-modified amylotype starches with enhanced functional properties. Journal of Food Engineering. 103(2): 156-164. http://doi.org/cjkbwm

Pongjanta J, Utaipattanaceep O, Naivikul, Piyachomkwan K. 2009. Effect of preheated treatments on physicochemical properties of resistant starch type III from pullulanase hydrolysis of high amylose rice starch. American Journal of Food Technology. 4(2): 79-89. http://doi.org/fgsj3w

Ramakrishna BS, Subramanian V, Mohan V, Sebastian BK, Young GP, Farthing MJ, Binder HJ. 2008. A Randomized Controlled Trial of Glucose versus Amylase Resistant Starch Hypo-Osmolar Oral Rehydration Solution for Adult Acute Dehydrating Diarrhea. PLoS ONE. 3(2): e1587. http://doi.org/dvsmq5

Reddy G, Altaf MD, Naveena BJ, Venkateshwar M, Kumar EV. 2008. Amylolytic bacterial lactic acid fermentation-A review. Biotechnology Advances. 26(1): 22-34. http://doi.org/c6m9ms

Roberfroid M. 2007. Prebiotics: The Concept Revisited. The Journal of Nutrition Effect of Probiotics and Prebiotics. 137(3): 830-837.

Robertson MD, Bickerton AS, Dennis AL, Vidal H, Frayn KN. 2005. Insulin sensitizing effects of dietary resistant starch and effects on skeletal muscle and adipose tissue metabolism. American Society for Clinical Nutrition. 82(3): 559-567.

Sajilata MG, Singhal RS, Kulkarni PR. 2006. Resistant starch a review. Comprehensive Reviews in Food Science and Food Safety. 5(1): 1-17. http://doi.org/fnkkfw

Salminen S, Wright AV. 2004. Lactic Acid Bacteria: Microbiology and functional aspect. 2nd Edition. Revised and Expanded. New York (US): Marcell Dekker, Inc.

So PW, Yu WS, Kuo YT, Wasserfall C, Goldstone AP, Bell JD, Frost G. 2007. Impact of Resistant Starch on Body Fat Patterning and Central Appetite Regulation. PLoS ONE. 2(12): e1309. http://doi.org/c6fsv7

Sugiyono, Pratiwi R, Faridah DN. 2009. Modifikasi Pati Garut dengan Perlakuan Siklus Pemanasan Suhu Tinggi-Pendinginan Untuk Menghasilkan Pati Resisten Tipe III. Jurnal Teknologi dan Industri Pangan. 20(1): 17-24.

Toma MM, Pokrotnieks J. 2006. Prebiotics as Functional Food: Microbiological and Medical Aspects. Acta Universitatis Latviensis. 710: 117-129.

Toole PWO, Cooney JC. 2008. Probiotics Bacteria Influence The Composition and Function of The Intestinal Microbiota. Review Article. Ireland (IE).

Vanhoutte T, Preter VD, Brandt ED, Verbeke K, Swings J, Huys G. 2006. Molecular monitoring of the fecal microbiota of healthy human subjects during administration of lactulose and Saccharomyces boulardii. Applied And Environmental Microbiology. 72(9): 5990-5997. http://doi.org/cgq8qh

Vatanasuchart N, Tungtrakul P, Wongkrajang K, Naivikul O. 2010. Properties of Pullulanase Debranched Cassava Starch and Type III Resistant Starch. Kasetsart Journal (Natural Science). 44(1): 131-141.

Vatanasuchart N, Niyomwit B, Wongkrajang K. 2012. Resistant starch content, in vitro starch digestibility and physico-chemical properties of flour and starch from Thai bananas. Maejo International Journal of Science and Technology. 6(02): 259-271.

Vishnu C, Naveena BJ, Altaf MD, Venkateshwar M, Reddy G. 2006. Amylopullulanase-A novel enzyme of L. amylophilus GV6 in direct fermentation of starch to L(+) lactic acid. Enzyme and Microbial Technology. 38(3-4): 545-550. http://doi.org/fnzfqz

Vrese MD, Marteau PR. 2007. Probiotics and Prebiotics: Effects on Diarrhea. The Journal of Nutrition. 137(3): 803-811.

Wells AL, Saulnier DMA, Gibson GR. 2008. Gastrointestnal microflora and interactions with gut mucosa. In: Gibson GR, Roberfroid MB, editor. Handbook of Prebiotics. New York (US): CRC Press. http://doi.org/fmgrnz

Wichienchot S, Jatupornpipat M, Rastall RA. 2010. Oligosaccharides of pitaya (dragon fruit) flesh and their prebiotic properties. Food Chemistry. 120(3): 850-857. http://doi.org/fkpr4j

Widaningrum, Jenie BSL, Richana N, Suliantari. 2013. Penambahan Tepung Pisang Uli Modifikasi Kaya Pati Resisten Pada Pembuatan Yoghurt Sinbiotik. Jurnal Pascapanen. 10(1): 38-47.

Wronkowska M, Smietana MS, Krupa U, Biedrzycka E. 2006. In vitro fermentation of new modified starch preparations-changes of microstructure and bacterial end-products. Enzyme and Microbial Technology. 40(1): 93-99. http://doi.org/dggx6b

Zaragoza EF, Riquelme-Navarrete MJ, Sanchez-Zapata E, Perez-Alvarez JA. 2010. Resistant starch as functional ingredient: A review. Food Research International. 43(4): 931-942. http://doi.org/fgpc2w

Zabar S, Shimoni E, Peled HB. 2008. Development of nanostructure in resistant starch type III during thermal treatments and cycling. Journal of Macromolecule Bioscience. 8(2): 163-170. http://doi.org/bz9x6p

Zhao XH, Lin Y. 2009. The impact of coupled acid or pullulanase debranching on the formation of resistant starch from banana starch with autoclaving–cooling cycles. European Food Research Technology. 230(1): 179-184. http://doi.org/b6spdh

Published
2017-10-09
How to Cite
SetiartoR. H. B., JenieB. S. L., FaridahD. N., & SaskiawanI. (2017). Kajian Peningkatan Pati Resisten yang Terkandung dalam Bahan Pangan Sebagai Sumber Prebiotik. Jurnal Ilmu Pertanian Indonesia, 20(3), 191-200. https://doi.org/10.18343/jipi.20.3.191

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