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Glucose-6-phosphate dehydrogenase mutation detection kit(PCR- reverse point hybr
Glucose-6-phosphate dehydrogenase mutation detection kit(PCR- reverse point hybridization)

Glucose-6-phosphate dehydrogenase mutation detection kit(PCR- reverse point hybridization)

Brief introduction

  Glucose-6-phosphate dehydrogenase(G6PD) deficiency is one of the most common X-chain incomplete genetic diseases in the world, commonly known as broad bean disease. Clinically, it is manifested as neonatal jaundice, broad bean disease, drug-based hemolytic, infectious hemolytic and non-spherical cell hemolytic anemia and other diseases. In children and infants concentrated in the performance of broad bean disease and neonatal jaundice, often more serious, if not timely treatment will endanger the lives of children. About 200 million people worldwide are affected. About 50% of newborns with G6PD deficiency develop neonatal jaundice, and about 12% of them develop nuclear jaundice, leading to brain damage and low intelligence.

1376N

1388N● 

487N● 

95N● 

392N● 

871N●

592N  ● 

1376M●

1388M

487M

95M

392M

871M

1004M●

1381M

1387M

493M

592M

1004M

1024M

1024M●


The significance of genetic testing

A: Genetic testing, the results are accurate and reliable for life.

B: For patients with G6PD gene mutation, clear and targeted medication guidance can be given to avoid contact with drugs that may cause acute hemolysis.

C: Genetic testing can effectively detect female heterozygotes and neonatal hemolysis.

D: Definite family genetic history. Provide guidance on marriage and childbirth and antibiotic medication.

E: Early detection of G6PD deficiency caused by genetic factors. Newborns can start preventive interventions from their mothers.

Comparison of existing clinical testing methodologies

Comparison items

Chemical methods

Melting curve method

Glass chip method

PCR Reverse Point 

Hybridization (Billion Cube) 

Detection accuracy

Unable to detect female 

hybrids, affected by 

environmental impact

Small differences in 

mutation temperature 

of adjacent sites can 

lead to miscalculation 

of results

Chip hybrid conditions 

are difficult to unify, 

and specificity 

needs to be improved

More than 99.9% of 

conformity with

 sequencing 

control results

Detecting sites

No-type

12 sites

7 sites (including 1 

non-pathogenic site)

12 sites

Instrument

Biochemical instrument

Fluorescence quantitative 

PCR instrument

Requires dedicated 

equipment

Common hybrids

Product advantages
Comprehensive coverage:?The genetic loci are scientific and comprehensive, and 12 mutation sites are detected at the same time, and the coverage rate is over 95% after verification by big data;
Leading technology:?own independent invention patents, cooperate with many domestic clinical units, the product has been fully optimized, the hybridization signal is strong, and the non-specific signal is weak;
Accurate:verified by more than 30,000 clinical epidemiological samples, the coincidence rate with sequencing is 100%, and all sites are set with normal controls for heterozygous / homozygous discrimination to reduce missed detections;
Simple and convenient:?interpret the result directly with the naked eye, accurate and easy to judge;
Genetic testing:The results are reliable for life, and can accurately detect neonatal hemolysis;
High cost performance:?no need for expensive special equipment, facing the public.
Genetic law
Applicable people

G6PD deficiency genotyping detection

Risk assessment of G6PD deficiency in child care before marriage examination

Prenatal G6PD deficiency screening high-risk groups, newborn screening

G6PD gene mutation population to check allergies before using antibiotics


Product information

Test specimen:Anticoagulant whole blood sample

Technical principle:PCR - reverse point hybridization

Packing size:25 tests / kit

Class:In vitro diagnostic reagents

Suitable instruments:Common gene amplification instrument, molecular hybridizer