Tetra(3-methoxy-N-(prop-2-ynyl)propanamide) Methane

DBCO-PEG12-Maleimide is a PEG linker containing a DBCO moiety and a terminal primary maleimide group. The maleimide group will react with a thiol group to form a covalent bond, enabling the connection of biomolecule with a thiol. DBCO is commonly used for copper-free Click Chemistry reactions. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.

DBCO-PEG12-Maleimide is a PEG linker containing a DBCO moiety and a terminal primary maleimide group. The maleimide group will react with a thiol group to form a covalent bond, enabling the connection of biomolecule with a thiol. DBCO is commonly used for copper-free Click Chemistry reactions. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.

Description

This kit provides a single tube to screen for the presence of high-risk HPV types, HPV16, HPV18, HPV31, HPV33, HPV35, HPV39, HPV45, HPV51, HPV52, HPV56, HPV58, HPV59, HPV66 and HPV68. The multiplex test is detected in two fluorescent channels differentiating between HPV16 / HPV18 which both produce a VIC channel signal and all others which produce a signal in the FAM channel. HPV16 and HPV18 account for 70% of positive findings in clinical practice so it is helpful to know if either of these are present. All other high risk genotypes together make up the remaining 30% of clinical positives and are grouped together into the FAM channel. In this configuration, the kit gives a partial genotyping result and some additional information on which high risk strains are present.

Exceptional value for money
Rapid detection of all clinically relevant subtypes
Highly specific detection profile
High priming efficiency
Broad dynamic detection range (>6 logs)
Sensitive to < 100 copies of target Accurate controls to confirm findings

Attogene’s Organophosphate detection kit is in designed specifically to detect Organophosphate in liquid samples.

Description

Organophosphate compounds (OP) account for the largest class of rural and urban poisons in the world that are used to kill pests but can also be toxic to humans.  OPs cause toxicity by means of blocking the acetylcholinesterase enzyme (AchE).  The AChE-directed OPs react with a serine residue that is located at the catalytic site found within the AChE gorge. The OP targeted enzyme is no longer able to hydrolyze ACh, resulting in the buildup of ACh in the nerve synapse. This effect causes excessive excitation of the nerves, producing uncoordinated movements, tremors, paralysis and death.  Both synthetic and natural(Guanitoxin) organophosphates are dangerous to humans — exposure can lead to visual, coordination, muscular, and neurological deficiencies, and in some cases even to death.  In turn, exposure to OP is a significant public health concern which would significantly benefit from an improved detection platform.

Attogene’s Organophosphate detection kit is in designed specifically to detect Organophosphate in liquid samples.  For solid samples a simple sample preparation method is performed.  The ability to detect Organophosphate is performed is simple and sensitive.  The reaction uses a chromophore that can be detected by eye. In the presence of Organophosphate, the rate of chromophore production is reduced in a concentration dependent fashion.  The higher the concentration of Organophosphate the less color is produced.

Attogene’s Organophosphate detection kit is in designed specifically to detect Organophosphate in liquid samples.