HKI : Himpunan Kimia Indonesia, Wadah menyatukan para Kimiawan di segala Bidang

Peran Kimiawan tak bisa dielakkan dari pembangunan indonesia dewasa ini. para praktisi industri mau tak mau harus memakai jasa para kimiawan untuk tenaga laboratorium ataupun lainnya. HKI merupakan wadah yang tepat guna menyatukan segala pemikiran para scientist-scientist kimia di seluruh Indonesia

Trip To Jakarta

First Coordination meeting of Indofood Asahi QA Team. For 2 years, finally i landed again in Soekarno Hatta International Airport

My First Book - Panzerkorps (1939 - 1945)

Finally, our book project in a recent year has finished. Thanks to nulisbuku.com for published it. Glad to see it and face the future book project

Indofood CBP Asahi QA Team

With our fellow QA team of Indofood CBP Asahi Beverage Division at Indofood Tower

#TipsAndroid, our #2 book

Our #2 book published by nulisbuku.com, thanks for published our book 2 times. i'm confident my #3 books is'nt indie book again.

Monday 20 September 2010

xylanase,the multifunctional enzyme

Xylanase

Enzymes are biological catalysts produced by all living things. The enzyme named xylanase deconstructs plant structural material by breaking down hemicellulose, a major component of the plant cell wall. Plant cell walls are necessary to prevent dehydration and maintain physical integrity. They also act as a physical barrier to attack by plant pathogens. In nature, some plant consumers or pathogens use xylanase to digest or attack plants. Many microorganisms produce xylanase, but mammals do not. Some herbivorous insects and crustaceans also produce xylanase.
The Xylanase enzyme (Endo-1,4-Beta-xylanase, or XYNII, EC 3.2.1.8) from Trichoderma sp has a pI of 9.0 and is produced by fermentation. Xylanase consists of 190 amino acids and has a molecular weight of 21 kD. Xylanases belong to the glucanase enzyme family and are characterized by their ability to break down various xylans to produce short-chain xylo-oligosaccharides. Xylanase readily crystallizes in ammonium sulfate and sodium/potassium phosphate across pH 3.5 to 9.0. Xylanase can also be crystallized with other salts, polymers, and organic solvents. Xylanase solubility increases with increasing temperature in moderate concentrations of ammonium sulfate. Xylanase solubility in phosphate pH 9 decreases in the temperature range of 0 to 10 degrees Celsius but remains constant in the range of 10 through 37 degrees Celsius. Xylanase has been extracted from many different fungi and bacteria. It is commonly used in animal feeds, paper production, and food production.
Xylanase has proven useful in many ways:
Biobleaching paper pulp. The use of xylanase leads to a reduction in organo-chlorine pollutants such as dioxin from the paper making process. In addition, chlorine-free bleaching (such as peroxide or ozone bleaching) can achieve brighter results with the addition of xylanase. Because xylanase does not harm cellulose, the strength of the paper product is not adversely affected.
Improving animal feed. Adding xylanase stimulates growth rates by improving digestibility, which also improves the quality of the animal litter. Xylanase thins out the gut contents and allows increased nutrient absorption and increased diffusion of pancreatic enzymes in the digesta. It also changes hemicellulose to sugars so that nutrients formerly trapped within the cell walls are released.
Improving silage (or enhanced fermentative composting). Treatment of forages with xylanase (along with cellulase) results in better quality silage and improves the subsequent rate of plant cell wall digestion by ruminants. There is a considerable amount of sugar sequestered in the xylan of plant biomass. In addition to converting hemicellulose to nutritive sugar that the cow or other ruminant can digest, xylanase also produces compounds that may be a nutritive source for the ruminal microflora.

Thursday 9 September 2010

Buffer Solution in Chemistry ( Larutan Buffer dalam ilmu kimia)

A buffer solution or larutan buffer (indonesian)is an aqueous solution consisting of a mixture of a weak acid and its conjugate base or a weak base and its conjugate acid. It has the property that the pH of the solution changes very little when a small amount of strong acid or base is added to it. Buffer solutions are used as a means of keeping pH at a nearly constant value in a wide variety of chemical applications. Many life forms thrive only in a relatively small pH range; an example of a buffer solution is blood.

Buffer solutions are used to maintain a certain level on the pH scale.

Applications

Their resistance to changes in pH makes buffer solutions very useful for chemical manufacturing and essential for many biochemical processes. The ideal buffer for a particular pH has a pKa equal to that pH, since such a solution has maximum buffer capacity.

Buffer solutions are necessary to keep the correct pH for enzymes in many organisms to work. Many enzymes work only under very precise conditions; if the pH strays too far out of the margin, the enzymes slow or stop working and can denature, thus permanently disabling its catalytic activity.[2] A buffer of carbonic acid (H2CO3) and bicarbonate (HCO3−) is present in blood plasma, to maintain a pH between 7.35 and 7.45.

Industrially, buffer solutions are used in fermentation processes and in setting the correct conditions for dyes used in colouring fabrics. They are also used in chemical analysis[1] and calibration of pH meters.

The majority of biological samples that are used in research are made in buffers, especially phosphate buffered saline (PBS) at pH

Useful buffer mixtures :

| Components | pH range |

HCl, Sodium citrate 1 - 5
Citric acid, Sodium citrate 2.5 - 5.6
Acetic acid, Sodium acetate 3.7 - 5.6
K2HPO4, KH2PO4 5.8 - 8 [3]
Na2HPO4, NaH2PO4 6 - 7.5 [4]
Borax, Sodium hydroxide 9.2 - 11