МУИС-ийн номын сан

Plant biochemistry (Бичлэгийн дугаар. 140230)

000 -УДИРДЛАГА
Удирдлага	09858nam a2201441 4500
003 - ХЯНАЛТЫН ТОО ТОДОРХОЙЛОГЧ
Код	MN-UlNUM
005 - БИЧИЛТ ХИЙСЭН ОГНОО
Тухайн бичилтийг бичсэн засварласан сүүлийн огноо	20240524191456.0
008 - ЕРӨНХИЙ МЭДЭЭЛЭЛ
Ерөнхий мэдээлэл	240520s2021 enkjo\|\|\| \|\|\|\| 00\| \| eng d
020 ## - ISBN
ISBN	9780128186312
040 ## - БИЧЛЭГ ҮҮСГЭГЧ БАЙГУУЛЛАГА
Бичлэг үүсгэгч номын сангийн код	МУИС-ийн номын сан
084 ## - ББК АНГИЛАЛ
Нэмэлт тусгалт	Сурах бичиг
Мэдлэгийн ялгаа	2 - Байгалийн шинжлэл
ББК ангилал	28.59
Зохиогчийн гурван тэмдэгт	H 50
100 ## - ЗОХИОГЧ
Зохиогчийн нэр	Heldt H.W., Piechulla B
240 ## - Шифр - Номын наалт, тайланд хэрэглэх
Ангилалын дугаар /Зохиогчийн 3 тэмдэгт	28.59 H 50
245 ## - ҮНДСЭН ГАРЧИГ
Номын нэр	Plant biochemistry
250 ## - ДАХИН ХЭВЛЭЛТ
Дахин гаралтын дугаар	5th ed
260 ## - ГАРАЛТЫН МЭДЭЭ
Хэвлэгдсэн газар	London
Хэвлэлийн газар	Academic Press, an imprint of Elsevier
Хэвлэгдсэн он	2021
300 ## - МАТЕРИАЛЫН ТОДОРХОЙЛОЛТ
хуудасны тоо	609
500 ## - Тайлбар
Дансны дугаар	ГФ 20705
505 ## - Агуулгын тэмдэглэгээ
Агуулгын тэмдэглэгээ	Plant Biochemistry, Fifth Edition, enables students to gain basic knowledge of the entire field, from photosynthesis to genetic engineering and its many commercial applications. Topics include cell structure and function of isoprenoids, phenylpropanoids and other secondary metabolites, and plant growth regulation and development. The text covers recent research findings and identifies areas of future research. This book is suitable for graduate students and advanced undergraduates in plant physiology, plant pathology, plant cell biology, and other plant sciences, researchers in industries actively involved in agribusiness, other biotechnology enterprises, and researchers in agronomy, agriculture, plant development and related areas.
546 ## - ХЭЛНИЙ ТУХАЙ МЭДЭЭ
Хэл	Англи хэл дээр,
653 ## - Түлхүүр үг
Түлхүүр үг	botany
653 ## - Түлхүүр үг
Түлхүүр үг	botanical chemistry
653 ## - Түлхүүр үг
Түлхүүр үг	plant molecular biology
653 ## - Түлхүүр үг
Түлхүүр үг	metabolism
653 ## - Түлхүүр үг
Түлхүүр үг	plant physiology
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Leaf Cells Consist of Several Metabolic Compartments
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Cell Wall Gives the Plant Cell Mechanical Stability
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The cell wall consists mainly of carbohydrates and proteins
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Plasmodesmata connect neighboring cells
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Vacuoles Have Multiple Functions
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Plastids Have Evolved From Cyanobacteria
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Functionally intact cell organelles can be isolated from plant cells
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondria Originate From Endosymbionts
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Peroxisomes Perform Fatty Acid Oxidation, Respiration, and Reactive Oxygen Species Metabolism
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Endoplasmic Reticulum and Golgi Apparatus Form a Network for the Distribution of Biosynthesis Products
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Various Transport Processes Facilitate the Exchange of Metabolites Between Different Compartments
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Translocators catalyze the specific transport of metabolic substrates and products
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Metabolite transport is achieved by a conformational change to the translocator
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Aquaporins make cell membranes not only permeable for water
740 ## - НОМЫН ГАРЧИГ
Гарчиг	lon channels exhibit a very high transport capacity
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Porins consist of ß-sheet structures
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Solar Power and Photosynthesis Are the Basis of Life on Earth
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Origin of Photosynthesis
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Pigments Capture Energy From Sunlight The energy content of light depends on its wavelength
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Chlorophyll is the main photosynthetic pigment Light Absorption Excites the Chlorophyll Molecule
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Antennas Are Required to Capture Light How the excitation energy of the photons is captured in the antennas and transferred to the reaction centers
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The function of an antenna is illustrated by the antenna of photosystem lI
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Phycobilisomes enable cyanobacteria and red algae to carry out photosynthesis in dim light
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Photosynthesis Is an Electron Transport Process
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Photosynthetic Machinery Is Constructed From Complex Modules
740 ## - НОМЫН ГАРЧИГ
Гарчиг	A Reductant and an Oxidant Are Formed During Photosynthesis
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Elucidation of the 3D Structure of a Photosynthetic Reaction Center of Purple Bacteria Was Resolved by X-Ray Crystallography
740 ## - НОМЫН ГАРЧИГ
Гарчиг	X-ray structure analysis
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The reaction center has a symmetric structure
740 ## - НОМЫН ГАРЧИГ
Гарчиг	How does a reaction center function?
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Two Photosynthetic Reaction Centers Are Arranged in Tandem in Photosynthesis of Plants
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Water Is Oxidized by Photosystem II
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Herbicides used in mechanized agriculture target photosystems
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Cytochrome b&/f Complex Mediates Electron Transport Between Photosystem Il and Photosystem I
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Iron atoms in cytochromes and iron-sulfur centers function as redox carriers
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Electron transport by the cytochrome b/f complex is coupled to a proton transport
740 ## - НОМЫН ГАРЧИГ
Гарчиг	he number of protons pumped through the cyt be/f complex can be doubled by a Q-cycle
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Product of Photosystem I Is Reduced Nicotinamide Adenine Dinucleotide Phosphate (NADPH)
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The light energy-driven cyclic electron transport of photosystem I produces only adenosine triphosphate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	In the absence of other acceptors electrons can be transferred from photosystem I to oxygen
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Regulatory Processes Control the Distribution of the Captured Photons Between the Two Photosystems
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Excess light energy is eliminated as heat
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Adenosine Triphosphate Is Generated by Photosynthesis
740 ## - НОМЫН ГАРЧИГ
Гарчиг	A Proton Gradient Serves as an Energy-Rich Intermediate State During Adenosine
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Electron Chemical Proton Gradient Can Be Dissipated by Uncouplers to Heat
740 ## - НОМЫН ГАРЧИГ
Гарчиг	H*-ATP Biosynthases From Bacteria, Chloroplasts, and Mitochondria Have a Common Basic Structure
740 ## - НОМЫН ГАРЧИГ
Гарчиг	H+-ATP synthase of chloroplasts is regulated by light
740 ## - НОМЫН ГАРЧИГ
Гарчиг	V-ATPase Is related to the F-ATP synthase
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Biosynthesis of Adenosine Triphosphate Depends on Conformation Change of the Protein
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondria Are the Power Station of the Cell
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Biological Oxidation Is Preceded by Degradation of Substrates to Form Bound Hydrogen and CO2
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondria Are the Sites of Cell Respiration
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondria Are the Sites of Cell Respiration
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Biological Oxidation Takes Place in the Matrix
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Pyruvate is oxidized by a multienzyme complex
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Acetate is completely oxidized in the tricarboxylic acid cycle
740 ## - НОМЫН ГАРЧИГ
Гарчиг	A loss of intermediates of the tricarboxylic acid cycle is replenished by anaplerotic reactions
740 ## - НОМЫН ГАРЧИГ
Гарчиг	How Much Energy Can Be Gained by the Oxidation of NADH?
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Mitochondrial Respiratory Chain Shares Common Features With the Photosynthetic Electron Transport Chain
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The complexes of the mitochondrial respiratory chain
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Electron transport of the respiratory chain Is coupled to the biosynthesis of ATP via proton transport
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondrial proton transport results in the formation of a membrane potential
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondrial ATP biosynthesis serves the energy demand of the cytosol
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Plant Mitochondria Fulfill Special Metabolic Functions
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Mitochondria can oxidize surplus NADH without the formation of ATP
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Cytosolic NADH and NADPH can be oxidized by the respiratory chain
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Compartmentation of Mitochondrial Metabolism Requires Specific Membrane Translocators
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Calvin-Benson-Bassham Cycle Catalyzes Photosynthetic CO2 Assimilation
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Carboxylation, Reduction, and Acceptor Regeneration Are Three Major Steps in CO2 Assimilation
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Ribulose Bisphosphate Carboxylase/Oxygenase (Rubisco) Catalyzes Two Reactions Simultaneously
740 ## - НОМЫН ГАРЧИГ
Гарчиг	There is no net CO, fixation at the compensation point
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The Reduction of 3-Phosphoglycerate Yields Triose Phosphate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	The CO2 Acceptor Ribulose 1,5-Bisphosphate Is Regenerated From Triose Phosphate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Reductive and Oxidative Pentose Phosphate Pathways Are Present in Chloroplasts
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Reduced Thioredoxins Transmit the Signal "Illumination' and Activate or Inactivate Enzymes
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Multiple regulatory processes tune the reactions of the reductive pentose phosphate pathway
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Photorespiratory Pathway Recycles Phosphoglycolate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Ribulose 1,5-Bisphosphate Is Recovered by Recycling 2-Phosphoglycolate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Peroxisomes Need External Reducing Equivalents for the Reduction of Hydroxypyruvate
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Reassimilation of NH4+ Released in the Photorespiratory Pathway in Chloroplasts
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Photosynthesis Needs the Consumption of Water
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Polysaccharides Are Storage and Transport Forms of Carbohydrates Produced by Photosynthesis
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Nitrate Assimilation Is Essential for the Biosynthesis of Organic Matter
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Nitrogen Fixation Enables Plants to Use the Nitrogen in the Air for Growth
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Products of Nitrogen Fixation and Nitrate Assimilation Are Deposited as Storage Proteins
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Sulfate Assimilation Enables the Synthesis of Sulfur-Containing Compounds
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Phloem Transport Distributes Photoassimilates to Various Sites of Consumption and Storage
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Lipids Are Membrane Constituents and Function as Carbon Stores
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Special Metabolites Fulfill Specific Biological and Ecological Functions in Plants
740 ## - НОМЫН ГАРЧИГ
Гарчиг	A Large Diversity of Isoprenoids Has Multiple Functions in Plants
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Phenylpropanoids Comprise a Multitude of Plant-Specialized Metabolites and Cell Wall Components
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Multiple Signals Regulate the Growth and Development of Plant Organs and Enable Their Adaptation to Environmental Conditions
740 ## - НОМЫН ГАРЧИГ
Гарчиг	A Plant Cell Has Three Different Genomes
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Biosynthesis, Processing, and Degradation of Plant Proteins
740 ## - НОМЫН ГАРЧИГ
Гарчиг	Biotechnology Alters Plants to Meet the Requirements of Agriculture, Nutrition, and Industry
942 ## - ЭЛЕМЕНТИЙН ТӨРӨЛ
Зүйлийн төрөл	Ном