Modern bioengineering

honggarae 12/10/2021 965

Basic information

Author: Li Quanlin Series Title: Frontier Science and Technology Series

Press: Southeast University Press

ISBN: 9787564113988

Publishing time: 2008-12-01

Edition: 1

Pages: 656

Binding: Paperback

Format: 16K

Category: Books> Science and Nature> Biological Sciences

Introduction

"Modern Bioengineering" " "Modern Bioengineering" also elaborated on the strategic focus and development direction of Jiangsu Province in the field of biotechnology. The publication of "Modern Bioengineering" has a certain role in promoting the development and application of modern biotechnology in the fields of medical treatment, health care, agriculture, environmental protection, chemical industry, light industry, food, etc., and the use of biotechnology to improve the quality of products in agriculture, animal husbandry and industry. The guiding significance. "Modern Bioengineering" is suitable for the management personnel of government departments engaged in the formulation of biotechnology industry policies, as well as the technical personnel engaged in research and development in biological enterprises, universities, and scientific research institutes.

About the author

Li Quanlin, a native of Suzhou, Jiangsu, a senior engineer, graduated from China Pharmaceutical University, studied at the University of Maryland in the United States, and studied in the 16th Youth Class of the Central Party School. Served as the factory director of Suzhou Sixth Pharmaceutical Factory, the director of Suzhou Municipal Medical Bureau, the deputy director of Suzhou Economic Commission, the secretary of Kunshan Municipal Party Committee, the deputy director of Jiangsu Provincial Planning and Economic Commission, the mayor of Yancheng, the mayor of Changzhou, and the secretary of Changzhou Municipal Party Committee. At that time, he was the deputy governor of Jiangsu Province. Representative of the 16th National Congress of the Communist Party of China, and representative of the Ninth and Eleventh National People's Congress. Published monographs and co-authors include "Thinking, Decision and Practice", "Industrial Production of Infusion", "Jiangsu's New Industrialization Development Strategy", "Information Drives Industrialization Guide", and this series of frontier science and technology.

Contents

1 Introduction

1.1 The basic meaning and main classification of the biological industry

1.1.1 The definition of the biological industry

1.1.2 Characteristics of the biological industry

1.1.3 Classification of the biological industry

1.2 Current status and significance of the development of the biological industry

1.2.1 The rapid development of the domestic bio-industry

1.2.2 The market demand of the domestic bio-industry

1.2.3 The importance of the development of the bio-industry

1.3 Modern bioengineering Development characteristics and trends

1.3.1 Development characteristics of domestic modern bioengineering

1.3.2 Development trends of modern bioengineering

1.4 Development of domestic biological industry Advantages and planning

1.4.1 Development advantages

1.4.2 Development goals

1.4.3 Key areas

1.4.4 Strategy Measures

2 Biopharmaceutical industry

2.1 Development status and trends of the biopharmaceutical industry

2.1.1 Definition and classification of the biopharmaceutical industry

2.1.2 Development status and characteristics of biomedicine industry

2.1.3 Development trend of biomedicine industry

2.2 Introduction to key technologies in the field of biomedicine

2.2.1 Chromatography technology

2.2.2 Mass spectrometry technology

2.2.3 X-crystal diffraction technology

2.2.4 Nuclear magnetic resonance (NMR) technology

< p>2.2.5 Differential display technology

2.2.6 RNAi technology

2.2.7 Gene chip technology

2.2.8 Bioinformatics research technology

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2.2.9 Metabonomics research technology

2.2.10 Proteomics research technology

2.2.11 Systems biology technology

2.2.12 High-throughput screening technology

2.2.13 Stem cell technology

2.2.14 Genetic engineering technology

2.2.15 Fermentation engineering

< p>2.2.16 Cell: Engineering

2.2.17 Protein Engineering

2.2.18 Plant Bioreactor Technology

2.2.19 Animal Bioreactor Technology

2.2.20 Fluorescence in situ hybridization technology

2.2.21 16S rDNA sequence analysis technology

2.2.22 Extremophile research

2.3 Related varieties in the biomedical industry

2.3 .1 Genetically engineered drugs

2.3.2 Bioengineered vaccines

2.4 Industrialization of Traditional Chinese Medicine

2.4.1 Related Concepts of Traditional Chinese Medicine

2.4 .2 Relevant technologies for the modernization of traditional Chinese medicine

2.4.3 Modernized traditional Chinese medicine products

2.5 Development goals, priorities and recommendations of the biomedical industry in Jiangsu Province

2.5.1 Development status And countermeasures and suggestions

2.5.2 Development goals and research priorities

Main references

3 Bioenergy and environmental biogovernance

3.1 Overview

3.2 Importance of industrial development

3.2.1 Adjusting the energy structure

3.2.2 Improving the ecological environment

3.2.3 Promote economic development

3.2.4 Solve energy shortage

3.3 Domestic and foreign market demand, industry status, development trend

3.3.1 Fuel ethanol

3.3.2 Biodiesel

3.3.3 Biogas

3.3.4 Biomass gasification

3.3.5 Environmental biotechnology

3.4 Key technologies

3.4.1 New generation biocatalytic conversion technology

3.4.2 Strain improvement technology

3.4.3 Industrial bioprocess engineering Technology

3.4.4 Bio-based chemical downstream industry chain green chemical process technology

3.4.5 Environmental bio-treatment technology

3.5 Main application areas

3.5.1 Fuel ethanol

3.5.2 Biodiesel

3.5.3 Biogas

3.5.4 Biomass gasification

3.5.5 Environmental Biotechnology

3.6 Jiangsu Province Bioenergy Industry Development Goals, Key Points and Suggestions

3.6.1 Development Goals

3.6.2 Key areas

3.6.3 Countermeasures and suggestions

Main references

4 Biomaterials and biobased chemicals

4.1 Overview

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4.2 Key technologies

4.2.1 Microbial genomics/functional genomics

4.2.2 Extreme microorganisms

4.2.3 Microbial proteome

4.2.4 Bioinformatics/Systems Biology

4.2.5 Microbial metabolic network and metabolic engineering

4.2.6 Bioreactor

4.2.7 Bioseparation Engineering

4.3 Main Application Fields

4.3.1 Bio-based bulk Chemicals

4.3.2 Bio-based materials

4.3.3 Biological fine chemicals

4.3.4 Pharmaceutical intermediates

4.4 Jiangsu Province Biomaterials and Bio-based Chemical Industry Development Goals, Key Points and Recommendations

4.4.1 Development Goals

4.4.2 Key Areas

4.4.3 Countermeasures and suggestions

Main references

5 Biological agriculture industry

5.1 Animal biological industry

5.1.1 Overview

< p>5.1.2 Significance of developing animal biology industry

5.1.3 Domestic and international animal biology market demand, industry status, and development trend

5.1.4 Key technologies

< p>5.1.5 Application areas

5.1.6 Development goals, priorities and recommendations of Jiangsu Province’s animal bio-industry

5.2 Forestry bio-industry and fiber biomass energy

5.2.1 Overview

5.2.2 Significance of developing modern forestry bio-industry

5.2.3 Characteristics of forestry bio-industry

5.2.4 Forestry at home and abroad Biological market demand, industrial development status and development trend

5.2.5 Forestry biological industry theory and supporting technology

5.2.6 Main application areas

5.2.7 The development goals, key points and recommendations of the forestry bio-industry in Jiangsu Province

Main references

Foreword

For a long time, universities and enterprises have gone on separate paths and do not interact with each other. . Universities do not know "what should I do", and companies do not know "how do I do". Although colleges and universities produce a large number of high-level articles and many international and domestic leading scientific and technological achievements every year, they are often difficult to transform into tangible and realistic productivity; similarly, although enterprises work hard, they lack the stamina for development, and the benefits still remain. Extensive growth.

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