Genetic testing——precision life technology solutions 

What are Genes?

Gene refers to a DNA or RNA sequence that carries genetic information, also called a genetic factor, and is the basic unit that controls genetic traits. Genes express the genetic information they carry by directing protein synthesis, thereby controlling the expression of biological traits. Therefore, children look or have similar personalities to their parents. Normal genes in the human body are also divided into different genotypes, namely gene polymorphisms. Different genotypes have different sensitivities to environmental factors, and sensitive genotypes can cause diseases under the influence of environmental factors. In addition, diseases directly caused by abnormal genes alone are called genetic diseases. In short, genes are the basic factors of life, the source of life, the basis of life, and genes dominate life. The existence or decline of all life is determined by genes. For example, your appearance, height, weight, skin color, personality, etc. are all related to genes.

Where are the genes?

 The nucleus of the cell contains nucleic acids, including DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). Our human genes exist on DNA, and it is a nucleotide fragment on DNA. From a genetic point of view, it is the basic genetic factor. 

What is DNA?

 Deoxyribonucleic acid, abbreviated as DNA, is the main component of chromosomes. DNA has the structural characteristics of double helix structure and semiconservative replication.

How many cells are there in the human body? How many base pairs are there in human cells? How many genes are there?

 The human body has about 100 trillion cells, and the DNA in each cell contains a sequence of 3 billion base pairs, which contains about 30,000 genes in total.

What is a gene mutation?

 Gene mutation refers to the change in gene structure caused by the replacement, addition or deletion of DNA base pairs, also known as point mutation. Mutations that occur under natural conditions are called spontaneous mutations. Gene mutation is the main cause of biological variation and the main factor in biological evolution. In production, artificial mutagenesis is an important method for producing new biological varieties. Gene mutations are common in the biological world and occur randomly. Under natural conditions, the frequency of gene mutations for an organism is very low. Most gene mutations are harmful to organisms, but a few gene mutations are beneficial. Such as disease resistance mutations in plants and drug resistance mutations in microorganisms.

What are disease susceptibility genes?

 Modern medical research results show that most diseases are the result of the combined effects of multiple environmental factors and genetic constitutions; genetic constitutions that are unfavorable to health correspond to some genotypes related to the occurrence of diseases, which we call disease susceptibility genes. Disease susceptibility refers to the tendency to be susceptible to a certain disease or a certain type of disease determined by genetics. People who are susceptible to diseases have specific genetic characteristics and carry a susceptible genotype for a certain disease. The conclusion can be drawn by hybridization and pairing testing with normal human genes. Genetic gene testing is based on a large amount of data analysis.

Can the results of susceptibility gene testing be used as the basis and standard for disease?

 No. The application of susceptibility gene testing in preventive medicine mainly helps us to analyze the life code, understand the possibility of gene mutation, and carry out targeted early prevention through DNA testing, data and analysis. Through early intervention and screening of pre-disease, the occurrence of disease can be effectively prevented and controlled. If you have already suffered from a certain disease, you need to go to the hospital for active diagnosis and treatment, which belongs to the scope of clinical medicine. 

What is the genetic talent genotype?

 Children's genetic talent is "the genetic potential of children determined by their own genes". Everyone has different types and degrees of advantages and disadvantages. People with certain genetic talents generally have greater development potential. If they are cultivated and developed in the direction of their genetic advantage potential, the development effect will be better and twice the result with half the effort; if they are developed in the direction of their advantage potential, the result will be half the effort with twice the effort. The genotype that determines a child's development potential is the genetic talent genotype.

Talent genes are somewhat abstract. Can you give examples to prove the existence of talent genes?

 We use two examples of scientific research to illustrate the existence and credibility of gifted genes. ⑴ Japanese scientists have bred mice that are not afraid of cats. Mice have an instinct that they will be afraid when they smell or see the appearance of a cat. In November 2007, Japanese scientists successfully eliminated this instinctive gene given to mice using genetic engineering. In the experiment, the mice would approach and even snuggle up to the cats and play with them. Mice that are not afraid of cats were created. This research finding shows that fear is determined by genes. ⑵ Success = Genes + Environment + Personal Efforts. Professor Robert Plomin of Cambridge University in the United Kingdom published a major scientific and technological achievement that attracted worldwide attention in the world's top academic journal Science. He found from a large number of genetic studies on identical twins that 32%-62% of people's success is determined by genes, and the rest is determined by environmental and personal acquired factors. 

What is a genetic change?

 Not all gene changes are caused by inheritance. In other words, gene mutations (deletions, duplications, point mutations, etc. can all be understood as gene defects) are not all inherited to the next generation. There are three reasons why gene changes lead to diseases: 1. Gene mutations after birth (often without family history); 2. Interactions between normal genes and the environment (often without family history); 3. Congenital defects in certain genes (often with family history, inherited to the next generation). Diseases caused by this congenital gene defect do not cause all members of the family to become ill. The onset and type of gene defects are determined by the function of the defective gene and the inheritance mode of the gene. Clinicians can speculate and analyze the inheritance mode based on the incidence of the disease in the family, and at the same time combine clinical manifestations and clinical experience to speculate which disease it may be. Most gene mutations can cause changes in the quantity or quality of functional proteins, causing abnormal body functions and thus causing disease.

What is genetic testing?

 Genetic testing is a technology that detects DNA through blood, other body fluids or tissue cells. It can diagnose diseases and can also be used to predict disease risks. The rapid development of molecular biotechnology has dramatically improved the speed and accuracy of genetic testing, providing great convenience for clinical genetic diagnosis (diagnosis of patients and prenatal diagnosis of pregnant women). Gene sequencing can predict a person's personality, appearance, potential diseases, and control everyone's destiny. Some people advocate that after birth, a personal genetic data archive should be established to arrange life according to each person's genetic data, including choosing food, medicine, work, and even finding a spouse. Genes are the basic units that control genetic traits. However, the process of this gene controlling functional proteins is completed through complex and delicate regulation. However, point mutations in some genes can cause death or lifelong disability. Mutations in the same gene can lead to different diseases, and different diseases can be caused by multiple different gene mutations, which is what people often call genetic heterogeneity. Therefore, genetic testing has certain health guidance significance.

Excellent team of experts, professional facilities and equipment

 It has a series of top international and domestic biotechnology and life science research results and products, and a research and development technical team composed of a group of overseas returnees with doctoral degrees, scholars and scientists. It is committed to providing systematic product and technical solutions for clinical medicine through the research and development of precision medical engineering, clinical molecular pathology diagnosis, precise gene testing based on bio informatics big data analysis, precise medication guidance, and precise health assessment.

With the concept of precision medicine, we are based on the forefront of life science and technology, innovate biotechnology and products, and improve the quality of life as our purpose, so as to bring the concepts of public health, preventive medicine, and precision medicine into people's daily lives, promote universal health services, provide scientific and comprehensive precision life technologies for human health, and improve the level of human health.

Precision gene sequencing

Gene sequencing technology can be combined with preventive medicine to intervene in the early stages of disease and improve human ability to prevent and treat diseases. With the development, application and popularization of gene technology, it will bring good news to mankind and the world.

Targeted medication

The drug or its carrier can be targeted to a specific lesion site to accumulate/release the active ingredient at the target site, thereby improving the efficacy while inhibiting toxic side effects and reducing damage to normal tissues and cells.

Biomedical Data Bank

While collecting and storing human biological samples, the Bioinformatics Data Bank provides users with bioinformatics-based analysis and technical services, including the processing, interpretation and information mining of a variety of high-throughput sequencing data for use in prevention and disease prediction, providing a reliable basis for medical research and drug development.

Precision medicine and precision health solutions

We apply molecular genetics, molecular imaging, preventive medicine, clinical medicine and bioinformatics to achieve accurate diagnosis, tailor-made individualized medication, targeted medication and precise treatment plans, and health solutions.

Types of services we provide

 Improve the level of human health, promote universal health services, and provide comprehensive, scientific and precise life technology solutions for human health.

Prevention

Full range of disease susceptibility gene testing projects

Tumors,Circulatory system, Digestive system, Respiratory system, Psychological and nervous system, Skeletal and muscle system, Urinary and reproductive system, Immune system, Endocrine system, Hematological system, Five sense organs, Nutritional and metabolic system, Drug metabolism and Others 

Prenatal DNA genetic testing

Testing package for expectant mothers, Testing package for postpartum mothers, Testing package for children's healthy growth 

Children's talent gene full test

Memory talent gene test, Language talent gene test, Sports talent gene test, IQ talent gene test, Temperament type talent gene test, Personality type tendency gene test, Self-management ability talent gene test, Logical thinking ability talent gene test, Music talent gene test, Painting talent gene test, Dance talent gene test, Chess talent gene test

Clinical personalized drug genetic testing

Personalized drug gene testing for diabetes, Personalized drug gene testing for hypertension, Personalized drug gene testing for hyperlipidemia, Personalized drug gene testing for coronary heart disease, Antiviral and infection drugs, Sedative and analgesic drugs