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Books on the topic 'Plant genome editing'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

Qi, Yiping, ed. Plant Genome Editing with CRISPR Systems. New York, NY: Springer New York, 2019. http://dx.doi.org/10.1007/978-1-4939-8991-1.

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2

Dederer, Hans-Georg, and David Hamburger, eds. Regulation of Genome Editing in Plant Biotechnology. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-17119-3.

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3

Gupta, Om Prakash, and Suhas Gorakh Karkute. Genome Editing in Plants. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9780367815370.

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4

Sivasankar, Shoba, Noel Ellis, Ljupcho Jankuloski, and Ivan Ingelbrecht, eds. Mutation breeding, genetic diversity and crop adaptation to climate change. Wallingford: CABI, 2021. http://dx.doi.org/10.1079/9781789249095.0000.

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Abstract This book presents reviews on the application of the technology for crop improvement towards food and nutrition security, and research status on mutation breeding and associated biotechnologies in both seed crops and vegetatively propagated crops. It also presents perspectives on the significance of next-generation sequencing and bioinformatics in determining the molecular variants underlying mutations and on emerging biotechnologies such as gene editing. Reviews and articles are organized into five sections in the publication: (1) Contribution of Crop Mutant Varieties to Food Security; (2) Mutation Breeding in Crop Improvement and Climate-Change Adaptation; (3) Mutation Induction Techniques for Enhanced Genetic Variation; (4) Mutation Breeding in Vegetatively Propagated and Ornamental Crops; and (5) Induced Genetic Variation for Crop Improvement in the Genomic Era. The contents of this volume present excellent reference material for researchers, students and policy makers involved in the application of induced genetic variation in plants for the maintenance of biodiversity and the acceleration of crop adaptation to climate change to feed a growing global population in the coming years and decades.
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5

Sprink, Thorben, Ralf Alexander Wilhelm, Armin Spök, Jürgen Robienski, Stephan Schleissing, and Joachim Hermann Schiemann, eds. Plant Genome Editing – Policies and Governance. Frontiers Media SA, 2020. http://dx.doi.org/10.3389/978-2-88963-670-9.

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6

Dürnberger, Christian, Sebastian Pfeilmeier, and Stephan Schleissing, eds. Genome Editing in Agriculture. Nomos Verlagsgesellschaft mbH & Co. KG, 2019. http://dx.doi.org/10.5771/9783845296432.

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New plant breeding techniques such as CRISPR/Cas have the potential to improve sustainability in agriculture. Genome editing techniques can increase yields while reducing the use of pesticides. Researchers around the world are working on improving the nutritional value of plants. However, whether the new technologies will be used in Europe is uncertain at present. Should genome editing be regulated like the ‘old’ genetic engineering techniques used on plants? What might a responsible interpretation of the precautionary principle look like? The political discussion on the evaluation of new plant breeding technologies is in full swing. The contributions in this anthology present the legal, social and ethical aspects of the topic that were discussed at a summer school of the Institute of Technology-Theology-Natural Sciences (TTN) at Ludwig Maximilian University in Munich. With contributions from Stephan Schleissing; Sebastian Pfeilmeier; Christian Dürnberger; Jarst van Belle; Jan Schaart; Robert van Loo; Katharina Unkel; Thorben Sprink; Aurélie Jouanin; Marinus J.M. Smulders; Hans-Georg Dederer; Brigitte Voigt; Felix Beck; João Otávio Benevides Demasi; Bartosz Bartkowski; Chad M. Baum; Alexander Bogner; Helge Torgersen; Sebastian Schubert; Anne Friederike Hoffmann; Ksenia Gerasimova; Karolina Rucinska
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7

Crop Biotechnology: Genetic Modification and Genome Editing. World Scientific Publishing Co Pte Ltd, 2018.

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8

Qi, Yiping. Plant Genome Editing with CRISPR Systems: Methods and Protocols. Springer New York, 2019.

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9

Deka, Pradip Chandra. Molecular Plant Breeding and Genome Editing Tools for Crop Improvement. IGI Global, 2020.

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10

Deka, Pradip Chandra. Molecular Plant Breeding and Genome Editing Tools for Crop Improvement. IGI Global, 2020.

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11

Deka, Pradip Chandra. Molecular Plant Breeding and Genome Editing Tools for Crop Improvement. IGI Global, 2020.

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12

Deka, Pradip Chandra. Molecular Plant Breeding and Genome Editing Tools for Crop Improvement. IGI Global, 2020.

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13

Deka, Pradip Chandra. Molecular Plant Breeding and Genome Editing Tools for Crop Improvement. IGI Global, 2020.

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14

Sarrocco, Sabrina, Alfredo Herrera-Estrella, and David B. Collinge, eds. Plant Disease Management in the Post-Genomic Era: From Functional Genomics to Genome Editing. Frontiers Media SA, 2020. http://dx.doi.org/10.3389/978-2-88963-560-3.

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15

Hamburger, David, and Hans-Georg Dederer. Regulation of Genome Editing in Plant Biotechnology: A Comparative Analysis of Regulatory Frameworks of Selected Countries and the EU. Springer International Publishing AG, 2020.

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16

Hamburger, David, and Hans-Georg Dederer. Regulation of Genome Editing in Plant Biotechnology: A Comparative Analysis of Regulatory Frameworks of Selected Countries and the EU. Springer, 2019.

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17

Gupta, Om Prakash, and Suhas Gorakh Karkute. Genome Editing in Plants. Taylor & Francis Group, 2021.

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18

Gupta, Om Prakash, and Suhas Gorakh Karkute. Genome Editing in Plants: Principles and Applications. Taylor & Francis Group, 2021.

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19

Gupta, Om Prakash, and Suhas Gorakh Karkute. Genome Editing in Plants: Principles and Applications. Taylor & Francis Group, 2021.

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20

Gupta, Om Prakash, and Suhas Gorakh Karkute. Genome Editing in Plants: Principles and Applications. Taylor & Francis Group, 2021.

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21

Tim, Doran, and Helliwell Chris, eds. RNA interference: Methods for plants and animals. Collingwood, Vic: CSIRO Pub., 2009.

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22

RNA interference: Methods for plants and animals. Collingwood, Vic: CSIRO Pub., 2009.

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23

RNA interference: Methods for plants and animals. Collingwood, Vic: CSIRO Pub., 2009.

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24

RNA interference: Methods for plants and animals. Collingwood, Vic: CSIRO Pub., 2009.

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25

Tim, Doran, and Helliwell Chris, eds. RNA interference: Methods for plants and animals. Collingwood, Vic: CSIRO Pub., 2009.

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26

Kumar, Vinay, Lam-Son Phan Tran, Shabir Hussain Wani, and Penna Suprasanna. Salinity Responses and Tolerance in Plants, Volume 2: Exploring RNAi, Genome Editing and Systems Biology. Springer, 2019.

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27

Kumar, Vinay, Lam-Son Phan Tran, Shabir Hussain Wani, and Penna Suprasanna. Salinity Responses and Tolerance in Plants, Volume 2: Exploring RNAi, Genome Editing and Systems Biology. Springer, 2018.

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28

von Philipsborn, Anne C. Neurobiology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797500.003.0003.

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Behavioral neurobiology aims at explaining behavior at the level of neurons and neuronal circuits, based on linking comparative anatomy, and the observation and manipulation of nervous system activity with animal behavior. The numerical simplicity and the presence of identified neurons in insect nervous systems make them outstanding model systems for neurobiology. The insect nervous system has a common ground plan with functionally specialized regions for sensory processing, integration, and motor control. In holometabolous species, the nervous system is restructured during metamorphosis to support new behavior. Different forms of plasticity allow for behavioral adaptations in the adult stage. Neuronal circuits for behavior in Drosophila melanogaster can be effectively analysed with genetic tools, as exemplified for courtship and mating behavior. Recent developments in connectomics and genome editing are expected to further behavioral neurobiology in a broad range of species and permit a comprehensive comparative approach to the neurobiology of behavioral ecology.
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29

Nonviral Vectors for Gene Therapy, Part 2, Volume 54, Second Edition (Advances in Genetics). 2nd ed. Academic Press, 2005.

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30

Hartl, Daniel L. A Primer of Population Genetics and Genomics. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780198862291.001.0001.

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A Primer of Population Genetics and Genomics, 4th edition, has been completely revised and updated to provide a concise but comprehensive introduction to the basic concepts of population genetics and genomics. Recent textbooks have tended to focus on such specialized topics as the coalescent, molecular evolution, human population genetics, or genomics. This primer bucks that trend by encouraging a broader familiarity with, and understanding of, population genetics and genomics as a whole. The overview ranges from mating systems through the causes of evolution, molecular population genetics, and the genomics of complex traits. Interwoven are discussions of ancient DNA, gene drive, landscape genetics, identifying risk factors for complex diseases, the genomics of adaptation and speciation, and other active areas of research. The principles are illuminated by numerous examples from a wide variety of animals, plants, microbes, and human populations. The approach also emphasizes learning by doing, which in this case means solving numerical or conceptual problems. The rationale behind this is that the use of concepts in problem-solving lead to deeper understanding and longer knowledge retention. This accessible, introductory textbook is aimed principally at students of various levels and abilities (from senior undergraduate to postgraduate) as well as practising scientists in the fields of population genetics, ecology, evolutionary biology, computational biology, bioinformatics, biostatistics, physics, and mathematics.
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31

Gujar, G., Y. Andi Trisyono, and Mao Chen, eds. Genetically Modified Crops in Asia Pacific. CSIRO Publishing, 2021. http://dx.doi.org/10.1071/9781486310913.

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Meeting future food needs without compromising environmental integrity is a central challenge for agriculture globally but especially for the Asia Pacific region – where 60% of the global population, including some of the world’s poorest, live on only 30% of the land mass. To guarantee the food security of this and other regions, growers worldwide are rapidly adopting genetically modified (GM) crops as the forerunner to protect against many biotic and abiotic stresses. Asia Pacific countries play an important role in this, with India, China and Pakistan appearing in the top 10 countries with acreage of GM crops, primarily devoted to Bt cotton. Genetically Modified Crops in Asia Pacific discusses the progress of GM crop adoption across the Asia Pacific region over the past two decades, including research, development, adoption and sustainability, as well as the cultivation of insect resistant Bt brinjal, drought-tolerant sugarcane, late blight resistant potato and biotech rice more specific to this region. Regulatory efforts of the Asia Pacific member nations to ensure the safety of GM crops to both humans and the environment are also outlined to provide impetus in other countries initiating biotech crops. The authors also probe into some aspects of gene editing and nanobiotechnology to expand the scope into next generation GM crops, including the potential to grow crops in acidic soil, reduce methane production, remove poisonous elements from plants and improve overall nutritional quality. Genetically Modified Crops in Asia Pacific provides a comprehensive reference not only for academics, researchers and private sectors in crop systems but also policy makers in the Asia Pacific region. Beyond this region, readers will benefit from understanding how GM crops have been integrated into many different countries and, in particular, the effects of the take-up of GM cropping systems by farmers with different socioeconomic backgrounds.
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