Untung Murdiyatmo scite author profile

Untung Murdiyatmo

5Publications

64Citation Statements Received

70Citation Statements Given

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Affiliations

Indonesian Agency for Agricultural Research and Development, Indonesian Orthopaedic Association, University of Kent

Publications

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Molecular biology of the 2-haloacid halidohydrolase IVa from Pseudomonas cepacia MBA4

Murdiyatmo

Asmara

Tsang

et al. 1992

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The structural gene (hdl IVa) for the Pseudomonas cepacia MBA4 2-haloacid halidohydrolase IVa (Hdl IVa) was isolated on a 1.6 kb fragment of Ps. cepacia MBA4 chromosomal DNA. The recombinant halidohydrolase was expressed in Escherichia coli and Pseudomonas putida and the structural gene was subcloned on to the tac expression vector pBTac1. High-level expression from the tac promoter was seen to be temperature-dependent, a consequence of the nucleotide sequence adjacent to the fragment encoding the halidohydrolase. The nucleotide sequence of the fragment encoding the Hdl IVa was determined and analysed. Three ATG codons were identified in one of the open reading frames and the one corresponding to the start of the hdl IVa structural gene was determined by comparison of the predicted amino acid sequences with the experimentally determined N-terminal sequences of halidohydrolase IVa. The hdl IVa gene encoded a 231-amino acid-residue protein of M(r) 25,900. The sequence and predicted structural data are discussed and comparison is made with sequence data for other halidohydrolases.

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Protein engineering of the 2-haloacid halidohydrolase IVa from Pseudomonas cepacia MBA4

Asmara

Murdiyatmo

Baines

et al. 1993

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The chemical modification of L-2-haloacid halidohydrolase IVa (Hdl IVa), originally identified in Pseudomonas cepacia MBA4, produced as a recombinant protein in Escherichia coli DH5 alpha, led to the identification of histidine and arginine as amino acid residues likely to play a part in the catalytic mechanism of the enzyme. These results, together with DNA sequence and analyses [Murdiyatmo, Asmara, Baines, Bull and Hardman (1992) Biochem. J. 284, 87-93] provided the basis for the rational design of a series of random- and site-directed-mutagenesis experiments of the Hdl IVa structural gene (hdl IVa). Subsequent apparent kinetic analyses of purified mutant enzymes identified His-20 and Arg-42 as the key residues in the activity of this halidohydrolase. It is also proposed that Asp-18 is implicated in the functioning of the enzyme, possibly by positioning the correct tautomer of His-20 for catalysis in the enzyme-substrate complex and stabilizing the protonated form of His-20 in the transition-state complex. Comparison of conserved amino acid sequences between the Hdl IVa and other halidohydrolases suggests that L-2-haloacid halidohydrolases contain conserved amino acid sequences that are not found in halidohydrolases active towards both D- and L-2-monochloropropionate.

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Bioethanol production from sugarcane molasses by instant dry yeast

Raharja

Murdiyatmo

Sutrisno

et al. 2019

IOP Conf. Ser.: Earth Environ. Sci.

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Isolasi Dan Analisis Gen Yang Responsif Terhadap Cekaman Kekeringan Pada Tebu

Widyasari

Sugiharto

Ismayadi

et al. 2004

Berkala Penelitian Hayati

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This study was aimed to isolate and identify a gene that was responsive to drought stress in sugar cane variety M442-51, a variety that is widely used in pastures or dry land. Under drought stress, M442-51 showed an enhance expression of several proteins. One of the protein, namely dip22, (drought inducible protein, with a molecular weight of 22KDa) was isolated and analyzed. Amino acid sequence of this protein showed some homology with several stressed related proteins (OsAsr 1 from Oryza sativa leaves, ZM Bss1 of Zea mays leaves, LeAsr 1, LeAsr 2 and LeAsr 3 of Lycopersicum lycopersicon leaves). The 343 bp of dip22-cDNA fragment was obtained using RT PCR from mRNA of sugar cane leaves that has been exposed to drought stress. The results indicated that the gene dip22 plays an important role as a regulatory protein that are usually nested within cytoplasmic matrix or in the nucleus.

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Bioethanol production from sugarcane molasses by instant dry yeast (effect of pretreatment and fermentation temperature)

Jayanti

Sutrisno

Wardani

et al. 2019

IOP Conf. Ser.: Earth Environ. Sci.

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