Anaerobic degradation of dimethylsulfoniopropionate to 3-S-methylmercaptopropionate by a marine Desulfobacterium strain

Dimethylsulfoniopropionate, an osmolyte of marine algae, is thought to be the major precursor of dimethyl sulfide, which plays a dominant role in biogenic sulfur emission. The marine sulfate-reducing bacterium Desulfobacterium strain PM4 was found to degrade dimethylsulfoniopropionate to 3-S-methylmercaptopropionate. The oxidation of one of the methyl groups of dimethylsulfoniopropionate was coupled to the reduction of sulfate; this process is similar to the degradation of betaine to dimethylglycine which was described earlier for the same strain. Desulfobacterium PM4 is the first example of an anaerobic marine bacterium that is able to demethylate dimethylsulfoniopropionate.

Conversion of a cyclodextrin glucanotransferase into an alpha-amylase:Assessment of directed evolution strategies

Glycoside hydrolase family 13 (GH13) members have evolved to possess various distinct reaction specificities despite the overall structural similarity. In this study we investigated the evolutionary input required to effeciently interchange these specificities and also compared the effectiveness of laboratory evolution techniques applied, i.e., error-prone PCR and saturation mutagenesis. Conversion of our model enzyme, cyclodextrin glucanotransferase (CGTase), into an cc-amylase like hydrolytic enzyme by saturation mutagenesis close to the catalytic core yielded a triple mutant (A231V/F260W/F184Q) with the highest hydrolytic rate ever recorded for a CGTase, similar to that of a highly active alpha-anaylase, while cyclodextrin production was virtually abolished. Screening of a much larger, error-prone PCR generated library yielded far less effective mutants. Our results demonstrate that it requires only three mutations to change CGTase reaction specificity into that of another GH13 enzyme. This suggests that GH13 members may have diversified by introduction of a limited number of mutations to the common ancestor, and that interconversion of reaction specificites may prove easier than previously thought

Biochemical characterization of two GH70 family 4,6-α-glucanotransferases with distinct product specificity from Lactobacillus aviarius subsp. aviarius DSM 20655

Nine GtfB-like 4,6-α-glucanotransferases (4,6-α-GTs) (represented by GtfX of L. aviarius subsp. aviarius DSM 20655) were identified to show distinct characteristics in conserved motifs I-IV. In particular, the "fingerprint" Tyr in motif III of these nine GtfB-type 4,6-α-GTs was found to be replaced by a Trp. In L. aviarius subsp. aviarius DSM20655, a second GtfB-like protein (GtfY), containing the canonical GtfB Tyr residue in motif III, was located directly upstream of GtfX. Biochemical characterization revealed that both GtfX and GtfY showed GtfB-like 4,6-α-GT activity, cleaving (α1→4) linkages and catalyzing the synthesis of (α1→6) linkages. Nonetheless, they differ in product specificity; GtfY only synthesizes consecutive (α1→6) linkages, yielding linear α-glucan products, but GtfX catalyzes the synthesis of (α1→6) linkages predominantly at branch points (22%) rather than in linear segments (10%). The highly branched α-glucan produced by GtfX from amylose V is resistant to digestion by α-amylase, offering great potential as dietary fibers

Glycosidic bond specificity of glucansucrases:on the role of acceptor substrate binding residues

Many lactic acid bacteria produce extracellular alpha-glucan polysaccharides using a glucansucrase and sucrose as glucose donor. The structure and the physicochemical properties of the alpha-glucans produced are determined by the nature of the glucansucrase. Typically, the alpha-glucans contain two types of alpha-glycosidic linkages, for example, (alpha 1-2), (alpha 1-3), (alpha 1-4) or (alpha 1-6), which may be randomly or regularly distributed. Usually, the alpha-glucan chains are also branched, which gives rise to an additional level of complexity. Even though the first crystal structure was reported in 2010, our current understanding of the structure-function relationships of glucansucrases is not advanced enough to predict the alpha-glucan specificity from the sequence alone. Nevertheless, based on sequence alignments and site-directed mutagenesis, a few amino acid residues have been identified as being important for the glycosidic bond specificity of glucansucrases. A new development in GH70 research was the identification of a cluster of alpha-glucan disproportionating enzymes. Here, we discuss the current insights into the structure-function relationships of GH70 enzymes in the light of the recently determined crystal structure of glucansucrases

Proses Pembelajaran Saksofon untuk Pemula di Sekolah Musik Indonesia Yogyakarta

Lembaga musik non formal khususnya di bidang pembelajaran saksofon kini semakin banyak, salah satu lembaga non formal yang menawarkan program pembelajaran saksofon yaitu Sekolah Musik Indonesia Yogyakarta yang berlokasi di jalan C. Simanjuntak. Pada pembelajaran saksofon tentunya terdapat suatu proses dan beberapa kendala baik dari faktor internal maupun eksternal, yang akhirnya mengarah terhadap bagaimana proses pembelajaran saksofon di Sekolah Musik Indonesia Yogyakarta dan apa saja kendala-kendala dalam proses pembelajaran saksofon di Sekolah Musik Indonesia yogyakarta. Pada proses pembelajaran terdapat metode yang merupakan suatu cara yang digunakan untuk mencapai suatu tujuan yang telah ditetapkan. Metode pembelajaran saksofon untuk pemula yang digunakan yaitu metode menurut George M. Bundy “The Selmer Elementary” dan metode menurut Hendry Linderman “Method for Saxophone”, adapun metode pembelajaran lainnya yang digunakan pada proses pembelajaran saksofon di Sekolah Musik Indonesia Yogyakarta sangatlah bervariasi sehingga proses pembelajaran tidak membosankan. Metode pengajaran secara umum yang digunakan yaitu metode eksperimen, tugas, diskusi, demonstrasi, tanya jawab, latihan, dan ceramah. Pada proses pembelajaran saksofon terdapat beberapa kendala baik dari faktor internal maupun eksternal yaitu meliputi lingkungan, guru, metode, kurikulum, program, materi, sarana dan prasarana. Namun di Sekolah Musik Indonesia Yogyakarta proses pembelajaran saksofon berjalan cukup baik walaupun terdapat beberapa kendala. Kata Kunci: Proses pembelajaran, Saksofon, Sekolah Musik Indonesia Yogyakart

ELECTRON-MICROSCOPIC ANALYSIS AND BIOCHEMICAL-CHARACTERIZATION OF A NOVEL METHANOL DEHYDROGENASE FROM THE THERMOTOLERANT BACILLUS-SP C1

Methanol dehydrogenase from the thermotolerant Bacillus sp. C1 was studied by electron microscopy and image processing. Two main projections can be distinguished: one exhibits 5-fold symmetry and has a diameter of 15 nm, the other is rectangular with sides of 15 and 9 nm. Subsequent image processing showed that the 5-fold view possesses mirror symmetry. The rectangular views can be divided into two separate classes, one of which has 2-fold rotational symmetry. It is concluded that methanol dehydrogenase is a decameric molecule, and a tentative model is presented. The estimated molecular weight is 430,000, based on a subunit molecular weight of 43,000. The enzyme contains one zinc and one to two magnesium ions per subunit. N-terminal amino acid sequence analysis revealed substantial similarity with alcohol dehydrogenases from Saccharomyces cerevisiae, Zymomonas mobilis, Clostridium acetobutylicum, and Escherichia coli, which contain iron or zinc but no magnesium. In view of the aberrant structural and kinetic properties, it is proposed to distinguish the enzyme from common alcohol dehydrogenases (EC 1.1.1.1) by using the name NAD-dependent methanol dehydrogenase

SapB and the rodlins are required for development of Streptomyces coelicolor in high osmolarity media

Streptomyces coelicolor produces spore-forming aerial hyphae after a period of vegetative growth. These aerial structures are decorated with a hydrophobic coating of rodlets consisting of chaplins and rodlins. Here, we show that rodlins and the surface-active peptide SapB are essential for development during growth in a medium with high osmolarity. To this end, both vegetative and aerial hyphae secrete SapB, whereas rodlins are only secreted by the spore-forming aerial hyphae.

Regional variations in human milk oligosaccharides in Vietnam suggest FucTx activity besides FucT2 and FucT3

Breastfeeding is the normal way of providing young infants with the nutrients they need for healthy growth and development (WHO). Human milk oligosaccharides (hMOS) constitute a highly important class of nutrients that are attracting strong attention in recent years. Several studies have indicated that hMOS have prebiotic properties, but also are effective in anti-adhesion of pathogens, modulating the immune system and providing nutrients for brain growth and development. Most of the latter functions seem to be linked to the presence of fucose-containing immunodeterminant epitopes, and Neu5Ac-bearing oligosaccharides. Analysis of hMOS isolated from 101 mothers' milk showed regional variation in Lewis-and Secretor based immunodeterminants. Lewis-negative milk groups could be sub-divided into two sub-groups, based on the activity of a third and hitherto unidentified fucosyltransferase enzyme. Analysis of hMOS remaining in faeces showed three sub-groups based on hMOS surviving passage through the gut, full consumption, specific partial consumption and nonspecific partial consumption, fitting previous findings

Engineering of Cyclodextrin Product Specificity and pH Optima of the Thermostable Cyclodextrin Glycosyltransferase from Thermoanaerobacterium thermosulfurigenes EM1

The product specificity and pH optimum of the thermostable cyclodextrin glycosyltransferase (CGTase) from Thermoanaerobacterium thermosulfurigenes EM1 was engineered using a combination of x-ray crystallography and site-directed mutagenesis. Previously, a crystal soaking experiment with the Bacillus circulans strain 251 β-CGTase had revealed a maltononaose inhibitor bound to the enzyme in an extended conformation. An identical experiment with the CGTase from T. thermosulfurigenes EM1 resulted in a 2.6-Å resolution x-ray structure of a complex with a maltohexaose inhibitor, bound in a different conformation. We hypothesize that the new maltohexaose conformation is related to the enhanced α-cyclodextrin production of the CGTase. The detailed structural information subsequently allowed engineering of the cyclodextrin product specificity of the CGTase from T. thermosulfurigenes EM1 by site-directed mutagenesis. Mutation D371R was aimed at hindering the maltohexaose conformation and resulted in enhanced production of larger size cyclodextrins (β- and γ-CD). Mutation D197H was aimed at stabilization of the new maltohexaose conformation and resulted in increased production of α-CD. Glu258 is involved in catalysis in CGTases as well as α-amylases, and is the proton donor in the first step of the cyclization reaction. Amino acids close to Glu258 in the CGTase from T. thermosulfurigenes EM1 were changed. Phe284 was replaced by Lys and Asn327 by Asp. The mutants showed changes in both the high and low pH slopes of the optimum curve for cyclization and hydrolysis when compared with the wild-type enzyme. This suggests that the pH optimum curve of CGTase is determined only by residue Glu258.