Aeromonas hydrophilla isolate M1S2 was isolated from Mandiangin swampy soil, South Kalimantan, and showed potential amylolytic activity by producing an amylase enzyme. This study aims to qualitatively and quantitatively analyze the ability of isolate M1S2 to hydrolyze starch substrate, measure amylase enzyme activity and specific activity of amylase enzyme crude extract, and analyze the effect of temperature and pH on amylase enzyme activity. The results of this study showed that isolate M1S2 was able to hydrolyze starch substrate with an amylolytic index of 1.23. In addition, the Fehling test indicated that the isolate produced amylase enzyme in the culture medium. The amylase enzyme activity and specific activity of isolate M1S2 were 0,00072 U/mL and 0.1634 U/mg, respectively. The amylase enzyme reached optimum activity at 40 ⁰C and pH 6.

Agustien, 2010 Protease Bakteri Termofilik. Universitas Padjajaran, Bandung.

Amri, E., N. Widhyastuti & I. M. Artika. 2010. Aktivitas Amilase Bakteri yang Diisolasi dari Sumber Air Panas Ciseeng Bogor. Jurnal Saintek. 2(1): 23-33.

Asadullah, M. 2014. Isolasi Bakteri Amilolitik dari Bekatul dan Uji Kemampuan untuk Produksi Enzim Amilase Kasar pada Berbagai Jenis Media Produksi. Skripsi. Fakultas Sains dan Teknologi, Universitas Islam Negeri (UIN) Maulana Malik ibrahim, Malang.

Badan Pusat Statistik Provinsi Kalimantan Selatan. 2014. Kalimantan Selatan dalam Angka. Badan Pusat Statistik Provinsi Kalimantan Selatan, Banjarmasin.

Bradford, MM. 1976 · A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem. Anal Biochem 1976. 7:72:248-54.

Charmier, L.M.J., C. McLoughlin and B. V. McCleary. 2021. Diastatic power and maltose value: a methodfor the measurement of amylolytic enzymes in malt. J. Inst. Brew. 1-18.

Cordeiro, C. A. M., M. L. L.Martins, A. B. Luciano. 2002. Production and properties of α-amylase from thermophilic Bacillus sp. Brazilian Journal of Microbiology. 33:57-61.

Diaz, A., C. Sieiro & Villa. 2003. The Characterization of β-Amylase Produced by Xayrhophyllomyces dendrorhous. Letters in Applied Microbiology. 36: 203-207.

Enny, W. 2008. Peranan Mikroba Tanah pada Kegiatan Rehabilitasi Lahan Bekas Tambang. Jurnal Info Hutan. 5(2): 151.

Fahmi, I., W. Astuti & S. Sitorus. 2017. Isolasi Amiase dari Kecambah Biji Nangka (Artocarpus heterophyllus Lam). Jurnal Atomik. 2(1): 140-142.

Fatoni, A dan Zusfahair. 2012. Thermophilic amylase from Thermus sp. isolation and its potential application for bioethanol production. Songklanakarin J. Sci. Technol. 34 (5), 525-531.

Kidd, S.P. and J.M. Pemberton. 2002. The cloning and characterization of a second a-amylase of A. hydrophila JMP636. Journal of Applied Microbiology. 92: 289–296.

Kumakura, D., R. Yamaguchi, A. Hara , S. Nakaoka. 2023. Disentangling the growth curve of microbial culture. Journal of Theoretical Biology. 573 (2023): 111597

Liu, S. 2017. Chapter 7 – Enzymes. in. Bioprocess Engineering (Second Edition) Kinetics, Sustainability, and Reactor Design. 297-373. Elsevier.https://doi.org/10.1016/B978-0-444-63783-3.00007-1.

Nangin, D & A. Sutrisno. 2015. Enzim Amilase Pemecah Pati Mentah Dari Mikroba: Kajian Pustaka. Jurnal Pangan dan Agroindustri. 3(3): 1032-1039.

Nurkhotimah. 2017. Pengaruh Suhu dan pH terhadap Aktivitas Enzim Fosfatase Bakteri Termofilik Sungai Gendol Pasca Erupsi Merapi. Jurnal Prodi Biologi. 6(8): 465-471.

Onuorah S., E. Judith, O. Frederick. 2020. Inhibitor and Starch Concentration on Effects of pH, Temperature, Metal Salts, Enzym Alpha

Amylase Derived From Aeromonas Hydrophila. International Journal of Advanced Technology & Science.

(01): 144-160.

Purnawan, A., Y. Capriyanti., P. A. Kurniatin., N. Rahmani & Yopi. 2015. Optimasi Produksi Enzim Amilase dari Bakteri Laut Jakarta. Jurnal Biologi Indonesia. 11(2): 215-224.

Robia & A. Sutrisno. 2015 Karakteristik Sirup Glukosa dari Tepung Ubi Ungu (Kajian Suhu Likuifikasi dan Konsentrasi α-Amilase). Jurnal Pangan dan Agroindustri. 3(4): 1531-1537.

Setyati, W. A & Subagiyo. 2012. Isolasi dan Seleksi Bakteri Penghasil Enzim Ekstraseluler (Proteolitik, Amilolitik, Lipolitik dan Selulolitik) yang Berasal dari Sedimen Kawasan Mangrove. Ilmu Kelautan. 17(3): 164-168.

Shrestha, S., C. Chio, J. R. Khatiwada,

A. L. M. Kognou and W. Qin. 2022. Optimization of multiple

enzymes production by

fermentation using

lipid-producing Bacillus sp. Front. Microbiol. 13:1049692.

doi: 10.3389/fmicb.2022.1049692

Singh, L., M. S. Ram., M. K. Agarwal & S. I. Alam. 2000. Characterization of Aeromonas hydrophila Strains and Their Evaluation for Biodegradation of Night Soil. World Journal of Microbiology & Biotechnology. 16: 625-630.

Susilawati, I. O., H. S. Nur & W. Imaningsih. 2017. Analisis Aktivitas Enzim Amilase yang Berasal dari Bakteri Asidofilik dan Termofilik di Lahan Basah Kalimantan Selatan. Laporan Penelitian. Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Lambung Mangkurat, Banjarbaru.

Taufik, M., W. Astuti & Erwin. 2017. Penapisan Bakteri Termofilik Penghasil Amilase dari Sumber Air Panas Dondang di Kecamatan Muara Jawa. Prosiding Seminar Nasional Kimia 2017. ISBN 978-602-50942-0-0.