Meta-topolin: A Growth Regulator for Plant Biotechnology and Agriculture / Ahmad, Naseem ; Strnad, Miroslav  

Público ISBD Ningún comentario para este título. Título : Meta-topolin: A Growth Regulator for Plant Biotechnology and Agriculture Tipo de documento: documento electrónico Autores: Ahmad, Naseem, ; Strnad, Miroslav, Mención de edición: 1 ed. Editorial: Singapore [Malasya] : Springer Fecha de publicación: 2021 Número de páginas: XIII, 339 p. 42 ilustraciones, 18 ilustraciones en color. ISBN/ISSN/DL: 978-981-1590467-- Nota general: Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés (eng) Palabras clave: Biotecnología vegetal  Genética vegetal  Agricultura  Fisiología de las plantas Clasificación: 631.52 Resumen: La tecnología de cultivo de tejidos vegetales (PTC) ha obtenido un éxito indiscutible por sus diversas aplicaciones comerciales y de investigación en ciencias vegetales. Los reguladores del crecimiento vegetal (PGR) son una parte esencial de cualquier intervención de cultivo de tejidos vegetales para la propagación o modificación de plantas. Se encuentra disponible una amplia gama de PGR, incluidos compuestos aromáticos que muestran actividades de citoquinina, promueven la división celular y la micropropagación, a saber. cinetina, N6-benciladenina y topolinas. Las topolinas son compuestos aromáticos naturales que han ganado popularidad como una alternativa eficaz a otras citoquininas utilizadas con frecuencia en cultivos de plantas in vitro. Entre ellos, la metatopolina [6-(3-hidroxibenzoliamino)purina] es la más popular y su uso en el cultivo de tejidos vegetales se ha ampliado rápidamente. Durante las últimas décadas, ha habido numerosos informes que destacan la eficacia de la metatopolina en la micropropagación y el alivio de diversos trastornos fisiológicos, el enraizamiento y la aclimatación de plantas cultivadas en cultivos de tejidos. . Nota de contenido: Chapter 1. History of meta-topolin and the aromatic cytokinins -- Chapter 2. Synthesis and chemistry of meta-topolin and related compounds -- Chapter 3. Cytokinin properties of meta-topolin and related substances -- Chapter 4. Occurrence, interconversion and perception of topolins in poplar -- Chapter 5. Cytokinin signalling and mechanism of action of meta-topolin and its derivatives -- Chapter 6. Determination of meta-topolin and the aromatic cytokinins -- Chapter 7. Topolin metabolism and its implications for in vitro plant micropropagation -- Chapter 8. Effect of meta-topolins on senescence -- Chapter 9. Effect of aromatic cytokinins on senescence-induced alterations in photosynthesis -- Chapter 10. Meta-topolin derived cytokinins as a solution to some in vitro problems -- Chapter 11. The role of meta-topolin in plant morphogenesis in vitro -- Chapter 12. Meta-topolin: advantages and disadvantages for in vitro propagation -- Chapter 13. Role of meta-topolin on in vitro shoot regeneration:an insight -- Chapter 14. Meta-topolin "an aromatic cytokinin" promotes improved micropropagation, rhizogenesis and ex vitro establishment of an India Ipeca (Tylophora indica Burm f.) -- Chapter 15. Use of meta-topolin in somatic embryogenesis -- Chapter 16. Meta-topolins: in vitro responses and applications in large-scale micropropagation of horticultural crops -- Chapter 17. Optimization of micropropagation of some woody plants using meta-topolin -- Chapter 18. Biotechnological application of meta-topolin as highly active aromatic cytokinin in micropropagation of medicinal plants -- Chapter 19. The use of the meta-topolin in tissue culture for increasing production of secondary metabolites -- Chapter 20. Effects of meta-topolin on the growth, physiological and biochemical parameters in plant tissue culture -- Chapter 21. Establishment and management of an in vitro repository of kiwifruit (Actinidia spp.) germplasm.-Chapter 22. New generation of inhibitors of cytokinin oxidase/dehydrogenase from Arabidopsis thaliana affects shoot/root growth and seed yield -- Chapter 23. Topolins and related compounds and their use in agricultural applications -- Chapter 24. The pharmacological activity of topolins and their ribosides. Tipo de medio : Computadora Summary : Plant tissue culture (PTC) technology has gained unassailable success for its various commercial and research applications in plant sciences. Plant growth regulators (PGRs) are an essential part of any plant tissue culture intervention for propagation or modification of plants. A wide range of PGRs are available, including aromatic compounds that show cytokinin activities, promote cell division and micro-propagation, viz. kinetin, N6-benzyladenine and topolins. Topolins are naturally occurring aromatic compounds that have gained popularity as an effective alternative for other frequently used cytokinins in in vitro culture of plants. Among them, meta-topolin [6-(3-hydroxybenzlyamino) purine] is the most popular and its use in plant tissue culture has amplified swiftly. During the last few decades, there have been numerous reports highlighting the effectiveness of meta-topolin in micropropagation and alleviation of various physiological disorders, rooting and acclimatization of tissue culture raised plants. . Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Meta-topolin: A Growth Regulator for Plant Biotechnology and Agriculture [documento electrónico] / Ahmad, Naseem, ; Strnad, Miroslav,  . -  1 ed.  . - Singapore [Malasya] : Springer, 2021 . - XIII, 339 p. 42 ilustraciones, 18 ilustraciones en color. ISBN : 978-981-1590467-- Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés (eng) Palabras clave: Biotecnología vegetal  Genética vegetal  Agricultura  Fisiología de las plantas Clasificación: 631.52 Resumen: La tecnología de cultivo de tejidos vegetales (PTC) ha obtenido un éxito indiscutible por sus diversas aplicaciones comerciales y de investigación en ciencias vegetales. Los reguladores del crecimiento vegetal (PGR) son una parte esencial de cualquier intervención de cultivo de tejidos vegetales para la propagación o modificación de plantas. Se encuentra disponible una amplia gama de PGR, incluidos compuestos aromáticos que muestran actividades de citoquinina, promueven la división celular y la micropropagación, a saber. cinetina, N6-benciladenina y topolinas. Las topolinas son compuestos aromáticos naturales que han ganado popularidad como una alternativa eficaz a otras citoquininas utilizadas con frecuencia en cultivos de plantas in vitro. Entre ellos, la metatopolina [6-(3-hidroxibenzoliamino)purina] es la más popular y su uso en el cultivo de tejidos vegetales se ha ampliado rápidamente. Durante las últimas décadas, ha habido numerosos informes que destacan la eficacia de la metatopolina en la micropropagación y el alivio de diversos trastornos fisiológicos, el enraizamiento y la aclimatación de plantas cultivadas en cultivos de tejidos. . Nota de contenido: Chapter 1. History of meta-topolin and the aromatic cytokinins -- Chapter 2. Synthesis and chemistry of meta-topolin and related compounds -- Chapter 3. Cytokinin properties of meta-topolin and related substances -- Chapter 4. Occurrence, interconversion and perception of topolins in poplar -- Chapter 5. Cytokinin signalling and mechanism of action of meta-topolin and its derivatives -- Chapter 6. Determination of meta-topolin and the aromatic cytokinins -- Chapter 7. Topolin metabolism and its implications for in vitro plant micropropagation -- Chapter 8. Effect of meta-topolins on senescence -- Chapter 9. Effect of aromatic cytokinins on senescence-induced alterations in photosynthesis -- Chapter 10. Meta-topolin derived cytokinins as a solution to some in vitro problems -- Chapter 11. The role of meta-topolin in plant morphogenesis in vitro -- Chapter 12. Meta-topolin: advantages and disadvantages for in vitro propagation -- Chapter 13. Role of meta-topolin on in vitro shoot regeneration:an insight -- Chapter 14. Meta-topolin "an aromatic cytokinin" promotes improved micropropagation, rhizogenesis and ex vitro establishment of an India Ipeca (Tylophora indica Burm f.) -- Chapter 15. Use of meta-topolin in somatic embryogenesis -- Chapter 16. Meta-topolins: in vitro responses and applications in large-scale micropropagation of horticultural crops -- Chapter 17. Optimization of micropropagation of some woody plants using meta-topolin -- Chapter 18. Biotechnological application of meta-topolin as highly active aromatic cytokinin in micropropagation of medicinal plants -- Chapter 19. The use of the meta-topolin in tissue culture for increasing production of secondary metabolites -- Chapter 20. Effects of meta-topolin on the growth, physiological and biochemical parameters in plant tissue culture -- Chapter 21. Establishment and management of an in vitro repository of kiwifruit (Actinidia spp.) germplasm.-Chapter 22. New generation of inhibitors of cytokinin oxidase/dehydrogenase from Arabidopsis thaliana affects shoot/root growth and seed yield -- Chapter 23. Topolins and related compounds and their use in agricultural applications -- Chapter 24. The pharmacological activity of topolins and their ribosides. Tipo de medio : Computadora Summary : Plant tissue culture (PTC) technology has gained unassailable success for its various commercial and research applications in plant sciences. Plant growth regulators (PGRs) are an essential part of any plant tissue culture intervention for propagation or modification of plants. A wide range of PGRs are available, including aromatic compounds that show cytokinin activities, promote cell division and micro-propagation, viz. kinetin, N6-benzyladenine and topolins. Topolins are naturally occurring aromatic compounds that have gained popularity as an effective alternative for other frequently used cytokinins in in vitro culture of plants. Among them, meta-topolin [6-(3-hydroxybenzlyamino) purine] is the most popular and its use in plant tissue culture has amplified swiftly. During the last few decades, there have been numerous reports highlighting the effectiveness of meta-topolin in micropropagation and alleviation of various physiological disorders, rooting and acclimatization of tissue culture raised plants. . Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]

Thidiazuron: From Urea Derivative to Plant Growth Regulator / Ahmad, Naseem ; Faisal, Mohammad  

Público ISBD Ningún comentario para este título. Título : Thidiazuron: From Urea Derivative to Plant Growth Regulator Tipo de documento: documento electrónico Autores: Ahmad, Naseem, ; Faisal, Mohammad, Mención de edición: 1 ed. Editorial: Singapore [Malasya] : Springer Fecha de publicación: 2018 Número de páginas: XIII, 491 p. 51 ilustraciones, 36 ilustraciones en color. ISBN/ISSN/DL: 978-981-10-8004-3 Nota general: Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés (eng) Palabras clave: Biotecnología vegetal  Ecología vegetal  Planta  Fisiología de las plantas  Técnicas citológicas  Desarrollo de plantas Clasificación: 631.52 Resumen: La biotecnología vegetal es una rama de gran interés para académicos e investigadores en los últimos tiempos. Hoy en día, se convierte en una herramienta muy útil en agricultura y medicina y se considera un área popular de investigación, especialmente en ciencias biológicas, porque hace un uso integral de la bioquímica, la biología molecular y las ciencias de la ingeniería para lograr la aplicación tecnológica de tejidos cultivados. células y microbios. El cultivo de tejidos vegetales (PTC) se refiere a una técnica de cultivo de células vegetales y otras partes en un medio nutritivo artificial en un ambiente controlado en condiciones asépticas. El PTC requiere diversos nutrientes, pH, fuente de carbono, agente gelificante, temperatura, fotoperiodo, humedad, etc. y, lo más importante, el uso sensato de reguladores del crecimiento de las plantas. Se emplean diversos derivados naturales, adenina y fenilurea, para la inducción y proliferación de diferentes tipos de explantes. Se evaluaron varios derivados de fenil urea y se observó que el tidiazurón (n-fenil-N"-1,2,3-tidiazol-5-ulurea) era el más activo entre los reguladores del crecimiento de las plantas. El tidiazurón (TDZ) fue Inicialmente se desarrolló como un defoliante del algodón y mostró una alta actividad similar a la citoquinina. En algunos ejemplos, su actividad fue 100 veces mayor que la de BA en el ensayo de callos de tabaco y produce una mayor cantidad de brotes en cultivos que Zeatin y 2iP. También mostraron un avance importante en el cultivo de tejidos. de varias leguminosas recalcitrantes y especies leñosas Durante las últimas dos décadas, varios laboratorios han estado trabajando en TDZ con diferentes aspectos y hasta donde sabemos, no existe un volumen editado completo sobre este tema en particular. Por lo tanto, el volumen editado es un acto para consolidar la información dispersa sobre el papel de TDZ en el cultivo de tejidos vegetales y las manipulaciones genéticas que, con suerte, resultarán informativas para diversas investigaciones. Thidiazuron: From Urea Derivative to Plant Growth Regulator recopila varios aspectos de TDZ en. Cultivo de Tejidos Vegetales con implicaciones rentables. El libro proporcionará material básico para académicos e investigadores que quieran iniciar su trabajo en esta fascinante área de investigación. El libro contendrá 26 capítulos compilados por dignatarios internacionales y brindará así una visión holística del volumen editado. Nota de contenido: 1. Thidiazuron: Modulator of Morphogenesis in Vitro -- 2. TDZ - Mode of Action, Use and Potential in Agriculture -- 3. TDZ-Induced Morphogenesis Pathways in Woody Plant Culture -- 4. Thidiazuron in Micropropagation of Aroid Plants -- 5. Use of TDZ for Micropropagation of Some Mediterranean Crop Species -- 6. Thidiazuron in Micropropagation of Small Fruits -- 7. TDZ in Cereal Gametic Embryogenesis -- 8. Preconditioning of Nodal Explants in Thidiazuron Supplemented Liquid Media Improves Shoot Multiplication in Pterocarpus Marsupium (Roxb) -- 9. Application of Thidiazuron in the Micropropagation of Fagaceae -- 10. In Vitro Morphogenesis of Woody Plants Using Thidiazuron -- 11. Thidiazuron Influenced Morphogenesis in Some Medicinal Plants -- 12. In vitro Morphogenesis of Some Himalayan Flora using TDZ - A Potential Plant Growth Regulator -- 13. Thidiazuron Induced Protocorm-Like Bodies in Orchid: Progress and Prospects -- 14. Thidiazuron (TDZ): A Callus Minimizer for In Vitro Plant Production -- 15. The Applications of TDZ in Medicinal Plant Tissue Culture -- 16. Factors Affecting Thidiazuron-Induced Direct Somatic Embryogenesis of PHALAENOPSIS Aphrodite -- 17. TDZ Induced Diverse In vitro Responses in Some Economically Important Plants -- 18. Regulation of Morphogenesis and Improvement in shoot Multiplication in Vitex Species Using Thidiazuron -- 19. TDZ-Induced Regeneration in Stevia rebaudiana Bertoni: An Important Natural Sweetener -- 20. Shoot Organogenesis of Aloe Plants with Emphasis on TDZ -- 21. Morphogenic Potential of Different Explants of Broccoli (Brassica oleracea L. var. italica): important "nutrient rich" Vegetable, using Thidiazuron. -- 22. Thidiazuron: A Potent Phytohormone for in Vitro Regeneration -- 23. TDZ-Induced Plant Regeneration in Jatropha curcas: a promisingBiofuel Plant -- 24. Role of Thidiazuron in Modulation of Shoot Multiplication Rate in Micropropagation of Rauvolfia Species -- 25. Effect of TDZ on Various Plant Cultures -- 26. Role of Thidiazuron in Tissue Culture of Orchids -- 27. Thidiazuron as an Elicitorin The Production of Secondary Metabolite -- 28. Thidiazuron: An Effective Plant Growth Regulator on In Vitro Cloning of Slow Growing Economic Rattan Palms in Southern Western Ghats for Eco-Restoration and Consistent Utilisation. Tipo de medio : Computadora Summary : Plant biotechnology is a most interesting branch for academicians and researchers in recent past. Now days, it becomes a very useful tool in agriculture and medicine and is regarded as a popular area of research especially in biological sciences because it makes an integral use of biochemistry, molecular biology and engineering sciences in order to achieve technological application of cultured tissues, cell and microbes. Plant tissue culture (PTC) refers to a technique of cultivation of plant cells and other parts on artificial nutrient medium in controlled environment under aseptic conditions. PTC requires various nutrients, pH, carbon source, gelling agent, temperature, photoperiod, humidity etc. and most importantly the judicious use of plant growth regulators. Various natural, adenine and phenyl urea derivatives are employed for the induction and proliferation of different types of explants. Several phenyl urea derivatives were evaluated and it was observed that thidiazuron (n-phenyl-N"-1,2,3- thidiazol-5-ulurea) was found to be the most active among the plant growth regulators. Thidiazuron (TDZ) was initially developed as a cotton defoliant and showed high cytokinin like activity. In some examples, its activity was 100 times more than BA in tobacco callus assay and produces more number of shoots in cultures than Zeatin and 2iP. TDZ also showed major breakthrough in tissue culture of various recalcitrant legumes and woody species. For the last two decades, number of laboratories has been working on TDZ with different aspect and number of publications has come out. To the best of our knowledge, there is no comprehensive edited volume on this particular topic. Hence th,e edited volume is a deed to consolidate the scattered information on role of TDZ in plant tissue culture and genetic manipulations that would hopefully prove informative to various researches. Thidiazuron: From Urea Derivative to Plant Growth Regulator compiles various aspects of TDZ in Plant Tissue Culture with profitable implications. The book will provides basic material for academicians and researchers who want to initiate work in this fascinating area of research. The book will contain 26 chapters compiled by International dignitaries and thus giving a holistic view to the edited volume. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Thidiazuron: From Urea Derivative to Plant Growth Regulator [documento electrónico] / Ahmad, Naseem, ; Faisal, Mohammad,  . -  1 ed.  . - Singapore [Malasya] : Springer, 2018 . - XIII, 491 p. 51 ilustraciones, 36 ilustraciones en color. ISBN : 978-981-10-8004-3 Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés (eng) Palabras clave: Biotecnología vegetal  Ecología vegetal  Planta  Fisiología de las plantas  Técnicas citológicas  Desarrollo de plantas Clasificación: 631.52 Resumen: La biotecnología vegetal es una rama de gran interés para académicos e investigadores en los últimos tiempos. Hoy en día, se convierte en una herramienta muy útil en agricultura y medicina y se considera un área popular de investigación, especialmente en ciencias biológicas, porque hace un uso integral de la bioquímica, la biología molecular y las ciencias de la ingeniería para lograr la aplicación tecnológica de tejidos cultivados. células y microbios. El cultivo de tejidos vegetales (PTC) se refiere a una técnica de cultivo de células vegetales y otras partes en un medio nutritivo artificial en un ambiente controlado en condiciones asépticas. El PTC requiere diversos nutrientes, pH, fuente de carbono, agente gelificante, temperatura, fotoperiodo, humedad, etc. y, lo más importante, el uso sensato de reguladores del crecimiento de las plantas. Se emplean diversos derivados naturales, adenina y fenilurea, para la inducción y proliferación de diferentes tipos de explantes. Se evaluaron varios derivados de fenil urea y se observó que el tidiazurón (n-fenil-N"-1,2,3-tidiazol-5-ulurea) era el más activo entre los reguladores del crecimiento de las plantas. El tidiazurón (TDZ) fue Inicialmente se desarrolló como un defoliante del algodón y mostró una alta actividad similar a la citoquinina. En algunos ejemplos, su actividad fue 100 veces mayor que la de BA en el ensayo de callos de tabaco y produce una mayor cantidad de brotes en cultivos que Zeatin y 2iP. También mostraron un avance importante en el cultivo de tejidos. de varias leguminosas recalcitrantes y especies leñosas Durante las últimas dos décadas, varios laboratorios han estado trabajando en TDZ con diferentes aspectos y hasta donde sabemos, no existe un volumen editado completo sobre este tema en particular. Por lo tanto, el volumen editado es un acto para consolidar la información dispersa sobre el papel de TDZ en el cultivo de tejidos vegetales y las manipulaciones genéticas que, con suerte, resultarán informativas para diversas investigaciones. Thidiazuron: From Urea Derivative to Plant Growth Regulator recopila varios aspectos de TDZ en. Cultivo de Tejidos Vegetales con implicaciones rentables. El libro proporcionará material básico para académicos e investigadores que quieran iniciar su trabajo en esta fascinante área de investigación. El libro contendrá 26 capítulos compilados por dignatarios internacionales y brindará así una visión holística del volumen editado. Nota de contenido: 1. Thidiazuron: Modulator of Morphogenesis in Vitro -- 2. TDZ - Mode of Action, Use and Potential in Agriculture -- 3. TDZ-Induced Morphogenesis Pathways in Woody Plant Culture -- 4. Thidiazuron in Micropropagation of Aroid Plants -- 5. Use of TDZ for Micropropagation of Some Mediterranean Crop Species -- 6. Thidiazuron in Micropropagation of Small Fruits -- 7. TDZ in Cereal Gametic Embryogenesis -- 8. Preconditioning of Nodal Explants in Thidiazuron Supplemented Liquid Media Improves Shoot Multiplication in Pterocarpus Marsupium (Roxb) -- 9. Application of Thidiazuron in the Micropropagation of Fagaceae -- 10. In Vitro Morphogenesis of Woody Plants Using Thidiazuron -- 11. Thidiazuron Influenced Morphogenesis in Some Medicinal Plants -- 12. In vitro Morphogenesis of Some Himalayan Flora using TDZ - A Potential Plant Growth Regulator -- 13. Thidiazuron Induced Protocorm-Like Bodies in Orchid: Progress and Prospects -- 14. Thidiazuron (TDZ): A Callus Minimizer for In Vitro Plant Production -- 15. The Applications of TDZ in Medicinal Plant Tissue Culture -- 16. Factors Affecting Thidiazuron-Induced Direct Somatic Embryogenesis of PHALAENOPSIS Aphrodite -- 17. TDZ Induced Diverse In vitro Responses in Some Economically Important Plants -- 18. Regulation of Morphogenesis and Improvement in shoot Multiplication in Vitex Species Using Thidiazuron -- 19. TDZ-Induced Regeneration in Stevia rebaudiana Bertoni: An Important Natural Sweetener -- 20. Shoot Organogenesis of Aloe Plants with Emphasis on TDZ -- 21. Morphogenic Potential of Different Explants of Broccoli (Brassica oleracea L. var. italica): important "nutrient rich" Vegetable, using Thidiazuron. -- 22. Thidiazuron: A Potent Phytohormone for in Vitro Regeneration -- 23. TDZ-Induced Plant Regeneration in Jatropha curcas: a promisingBiofuel Plant -- 24. Role of Thidiazuron in Modulation of Shoot Multiplication Rate in Micropropagation of Rauvolfia Species -- 25. Effect of TDZ on Various Plant Cultures -- 26. Role of Thidiazuron in Tissue Culture of Orchids -- 27. Thidiazuron as an Elicitorin The Production of Secondary Metabolite -- 28. Thidiazuron: An Effective Plant Growth Regulator on In Vitro Cloning of Slow Growing Economic Rattan Palms in Southern Western Ghats for Eco-Restoration and Consistent Utilisation. Tipo de medio : Computadora Summary : Plant biotechnology is a most interesting branch for academicians and researchers in recent past. Now days, it becomes a very useful tool in agriculture and medicine and is regarded as a popular area of research especially in biological sciences because it makes an integral use of biochemistry, molecular biology and engineering sciences in order to achieve technological application of cultured tissues, cell and microbes. Plant tissue culture (PTC) refers to a technique of cultivation of plant cells and other parts on artificial nutrient medium in controlled environment under aseptic conditions. PTC requires various nutrients, pH, carbon source, gelling agent, temperature, photoperiod, humidity etc. and most importantly the judicious use of plant growth regulators. Various natural, adenine and phenyl urea derivatives are employed for the induction and proliferation of different types of explants. Several phenyl urea derivatives were evaluated and it was observed that thidiazuron (n-phenyl-N"-1,2,3- thidiazol-5-ulurea) was found to be the most active among the plant growth regulators. Thidiazuron (TDZ) was initially developed as a cotton defoliant and showed high cytokinin like activity. In some examples, its activity was 100 times more than BA in tobacco callus assay and produces more number of shoots in cultures than Zeatin and 2iP. TDZ also showed major breakthrough in tissue culture of various recalcitrant legumes and woody species. For the last two decades, number of laboratories has been working on TDZ with different aspect and number of publications has come out. To the best of our knowledge, there is no comprehensive edited volume on this particular topic. Hence th,e edited volume is a deed to consolidate the scattered information on role of TDZ in plant tissue culture and genetic manipulations that would hopefully prove informative to various researches. Thidiazuron: From Urea Derivative to Plant Growth Regulator compiles various aspects of TDZ in Plant Tissue Culture with profitable implications. The book will provides basic material for academicians and researchers who want to initiate work in this fascinating area of research. The book will contain 26 chapters compiled by International dignitaries and thus giving a holistic view to the edited volume. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]

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