Relevant bibliographies by topics / Modern biotechnologies

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Modern biotechnologies'

Author: Grafiati
Published: 2 June 2025
Last updated: 19 July 2025

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Journal articles on the topic "Modern biotechnologies"

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Andrusyshyna, I., and E. Vorobiev. "Current challenges for bioethics: modern biotechnologies." Ukrainian Journal of Occupational Health 2023, Suppl (2023): 378–83. https://doi.org/10.33573/ujoh2023.suppl.378.

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Raito, Marika. "Modern Biotechnologies to Treat “Difficult Lesions”." Giornale di Tecniche Nefrologiche e Dialitiche 25, no. 4 (2013): 323–27. http://dx.doi.org/10.5301/gtnd.2014.11771.

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Musostova, Deshy, Albina Berkaeva, and Varvara Markaryan. "Economic potential of biotechnologies." BIO Web of Conferences 76 (2023): 10003. http://dx.doi.org/10.1051/bioconf/20237610003.

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Biotechnology is one of the most promising areas of development of modern science and technology. Within the framework of biotechnology, the potential of using living systems and their metabolic products to solve various technological problems is being studied, and methods are being developed to create new organisms using recombinant DNA in accordance with the concepts of genetic engineering. The interdisciplinary nature of biotechnologies makes it possible to use their results in various economic sectors: in agriculture and the food industry, in pharmaceuticals, medicine, in the production of biofuels, in waste processing and in the fight against pollution of natural ecosystems. This article provides a comprehensive study of the economic potential of biotechnologies and the possibility of their application in the modern world.
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Mykhalska, S. I., and A. G. Komisarenko. "Actual directions of modern biotechnologies of wheat." Fiziologia rastenij i genetika 54, no. 3 (2022): 187–213. http://dx.doi.org/10.15407/frg2022.03.187.

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Petrova, A. S. "Application of modern convergent solutions in food biotechnologies." IOP Conference Series: Earth and Environmental Science 613 (December 23, 2020): 012106. http://dx.doi.org/10.1088/1755-1315/613/1/012106.

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Dobronravova, Iryna, and Lidija Sidorenko. "POST NON-CLASSICAL SYNTHESIS OF KNOWLEDGE IN MODERN BIOTECHNOLOGIES." Bulletin of Taras Shevchenko National University of Kyiv. Philosophy, no. 6 (2022): 16–20. http://dx.doi.org/10.17721/2523-4064.2022/6-3/13.

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The article is devoted to modern biotechnologies: genetic engineering technologies, particularly CRISPR, PGD technologies, IVF, etc. Modern biotechnologies differ fundamentally from traditional technologies. The latter were created on the basis on applied scientific knowledge. Modern biotechnologies directly arise from the field of fundamental research grounded on interdisciplinary and transdisciplinary methods. The modern biotechnologies are considered in the context of the post nonclassical type of scientific rationality, which was developed during the modern global scientific revolution to explore holistic, complex human dimension systems capable of self-organization and self-development. The norms of scientific research of this modern type of scientific rationality were established for nonlinear science, particularly for the theories of self-organization whose variable nonlinear dynamics is described by nonlinear equations with several solutions chosen by chance. That is why the explanation of a certain state of the self-organizing system should take account of system's specific choice of the version of further movement; therefore, it is a description by its logical structure. Even in modern physics, nonlinear theories are descriptive because nonlinear equations are solved by means of numerous approximation methods, describing specific systems in specific conditions of their existence. Thus the contraposition of fundamental theories with the applied ones, which is typical of linear physics, is becoming less relevant. Hence, long-standing critical remarks against biological theories for their inconsistency with idealized hypothetical-deductive standards turn out to be inadequate and misleading in terms of the specifics of biological objects. Ultimately, biology has been provided with the norms of scientific research of the holistic complex systems, which are self-organized and self-developing, in conformity with the nature of living things. From this it follows that biological theories may well be and are descriptive. Given that the article deals with technologies, the problem of the relation of the artificial and natural take center stage. Exploring this problem, we relied on Herbert Simon's classical work entitled "The Sciences of the Artificial", which was once devoted to cybernetics in the main, though it has wider application. The artificial is created on grounds of human aims, whereas it works according to natural laws. Unlike technique that designs artificial devices, it is critically important that technological processes are not "designed", but originated under certain conditions, and they often deal with the aspects of self-organization. In addition, it is vitally important for biotechnology that any design in genetic engineering should not disrupt the processes of self-organization in living organisms. The nonlinearity of these processes provides a possibility of human intervention that is due to the fundamental variability of such processes, when the intervention creates conditions for a favorable choice. However, a risk remains. Moreover, the definition of favorability is not always clear. Thus, value aspects are irrevocable and they require an appeal to ethics and humanitarian research in general.
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Tait, Joyce, and Guy Barker. "Global food security and the governance of modern biotechnologies." EMBO reports 12, no. 8 (2011): 763–68. http://dx.doi.org/10.1038/embor.2011.135.

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Van Eenennaam, Alison L. "The Current and Future Uses of Biotechnology in Animal Agriculture." Ceiba 54, no. 1 (2016): 72–81. http://dx.doi.org/10.5377/ceiba.v54i1.2782.

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Biotechnologies have been an integral part of improvements in animal genetics, nutrition and health over the past century. Many biotechnologies have become fundamental components of efficient livestock production systems. The genetic improvements that have been enabled by biotechnologies have dramatically decreased the environmental footprint of animal protein production in many parts of the world, and continued innovation is required to address the projected increase in demand for animal products in the future. Breeding programs increasingly utilize a combination of advanced reproductive technologies and genomic tools to accelerate the rate of genetic gain by manipulating components of the breeder’s equation. The use of these biotechnologies and breeding methods has met with little public opposition. In contrast, the use of modern biotechnologies, defined as those that employ the use of in vitro nucleic acid techniques, have been highly controversial, especially those involving the use of genetic engineering. This modern biotechnology distinction is somewhat arbitrary as there are a number of biotechnologies that involve the use of in vitro processes, and many result in genetic modifications that are indistinguishable from the naturally-occurring variation that is the driver of both traditional breeding programs and evolution. A number of useful traits including disease resistance and animal welfare traits have been successfully introduced into various livestock species using both genetic engineering and gene editing techniques. Ultimately these techniques complement the genetic improvement that can be accomplished using traditional selection techniques and, if judged acceptable, offer an opportunity to synergistically accelerate genetic improvement in food animal species.
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Zenin, S. S., and M. A. Nekrasov. "Somatic Biotechnologies in the System of Social Values of Modern Russian Society." Actual Problems of Russian Law 19, no. 1 (2024): 22–32. http://dx.doi.org/10.17803/1994-1471.2024.158.1.022-032.

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The paper is devoted to analyzing the impact of somatic biotechnologies on the system of social values of modern society. In the paper «somatic» refers to such technologies that relate to the genetic modification of the human body or its functional systems carried out in various ways. The authors attempt to analyze the main directions of transformation of social institutions of modern Russian society, taking into account advantages and disadvantages of the new technological revolution. Attention is drawn to the risks that biotechnologies pose to society and the state as a whole. The authors substantiate the necessity of participation of the state and various social groups in the development of an optimal strategy reflecting the interests of all stakeholders, based on transparency and trust. The paper indicates that it is necessary to determine the levels of permissible human exposure to various concomitant factors when using biotechnologies. This will require a normative rethinking of the entire concept of human and civil rights and freedoms enshrined in the Constitution of the Russian Federation that includes the right to life, its values, the principles of the inalienable fundamental human rights and freedoms, their belonging to everyone from birth, the right to privacy, the right to personal and family secrets, dignity and good name.It is important at the regulatory level to consolidate the legal regime of genetic data about a person in the system of social values, prohibit discrimination based on genetic uniqueness, and develop requirements for medical organizations using somatic biotechnologies. The resolution of future problems involves a theoretical rethinking and normative regulation of new forms of work that will appear in the future, as well as new types of property. The ideas of motherhood and childhood, as well as families, will require new content, which will affect the most important values of society and demand active involvement of the state.
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Galovic, Vladislava, Andrej Pilipovic, Miroslav Markovic, et al. "New biotechnologies in Serbian forestry." Bulletin of the Faculty of Forestry, suppl. (2014): 141–55. http://dx.doi.org/10.2298/gsf14s1141g.

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This paper presents an overview of the results achieved in the laboratory for molecular studies of the Institute of Lowland Forestry and Environment, University of Novi Sad, in the field of biotechnology, mainly in molecular genetics, genomics and functional genomics. Researches are designed to serve as a breeding tool. The aim was to clarify the processes of classical genetics by applying modern methods and enable a qualitative and rapid progress in understanding the processes that occur at the level of genes in the genome of forest plant species and thus help the processes of conservation of valuable taxa at the time of global climate change. The results are presented within various research fields and by type of forest trees that were given priority by importance in forest ecosystems. Studies have in most cases been of applicative character with the aim of solving the major problems in forestry, but also of fundamental nature when they were necessary to elucidate the response of forest species to the induced stress, which is an inevitable component of the time characterized by tolerance and adaptation as keywords.
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Dissertations / Theses on the topic "Modern biotechnologies"

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Shyshenko, V., Нiна Володимирiвна Мальована, Нина Владимировна Малеванная, and Nina Volodymyrivna Malovana. "Modern achievements of genetic engineering and biotechnologies." Thesis, Sumy State University, 2020. https://essuir.sumdu.edu.ua/handle/123456789/78061.

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Modern medical science and the needs of practical health care require the use of scientific technology in basic research. The Europian federation of Biotechnology defines modern biotechnology as the use of sciences related to nature (biology, chemistry, physics) and engineering (e.g. electronics) in relation with biosystems in the bio-industry.
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Maryniaka, K. "Modern step into future: bioplastic." Thesis, Молодіжна наукова ліга, 2020. https://er.knutd.edu.ua/handle/123456789/16771.

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Modern chemistry has reached the level of molecular research, which made it possible to reveal the mechanisms of many processes in a living organism, synthesize substances that do not exist in nature, and decipher the genetic mechanisms of heredity. The development of the production of both biologically derived and biodegradable polymers cannot be stopped. Nowadays biopolymers in many areas represent a serious alternative to traditional polymeric materials. The notion that they are not competitive will not hold out for a long time. What is more, they certainly will not become a panacea for all environmental problems. The concept of biopolymers as 100% resource conserving agents is also premature. However, they open up new prospects in the post-oil era.
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Albrecht, Stephan. "Freiheit, Kontrolle und Verantwortlichkeit in der Gesellschaft moderne Biotechnologie als Lehrstück /." Hamburg : Hamburg Univ. Press, 2006. http://deposit.d-nb.de/cgi-bin/dokserv?idn=980708745.

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Albrecht, Stephan. "Freiheit, Kontrolle und Verantwortlichkeit in der Gesellschaft moderne Biotechnologie als Lehrstück." Hamburg Hamburg Univ. Press, 2002. http://deposit.d-nb.de/cgi-bin/dokserv?idn=980708745.

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Onken, Jens. "Biotechnologie lipophiler Substrate in wässrigen Systemen Terpentransformationen durch Basidiomyceten als Modell /." [S.l. : s.n.], 1998. http://deposit.ddb.de/cgi-bin/dokserv?idn=954310705.

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Albrecht, Stephan [Verfasser]. "Freiheit, Kontrolle und Verantwortlichkeit in der Gesellschaft : moderne Biotechnologie als Lehrstück / Universität Hamburg. Stephan Albrecht." Hamburg : Hamburg Univ. Press, 2006. http://d-nb.info/980708745/34.

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Stein, Alexander J. "Micronutrient malnutrition and the impact of modern plant breeding on public health in India how cost-effective is biofortification?" Göttingen Cuvillier, 2006. http://deposit.d-nb.de/cgi-bin/dokserv?idn=980792789.

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Tendil, Lysiane. "Contraintes, structures et modes de financement des entreprises biotechnologiques : une comparaison internationale." Thesis, Montpellier 1, 2012. http://www.theses.fr/2012MON10008/document.

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Le financement des entreprises biotechnologiques (EB) est abordé selon deux axes principaux de recherche, les contraintes financières (CFI) et les structures financières (SF). Notre objectif est d'examiner, dans une perspective internationale, l'existence de CFI et d'une SF particulière pour ce type de firmes qui appartiennent à la catégorie des entreprises technologiquement innovantes (ETI). Pour ce faire, nous scindons les pays de notre échantillon en modèles de capitalisme, avec d'un côté, les EB des pays « néo- ou ultra-libéraux » (PL) et de l'autre, « intermédiés » (PI). Ce découpage nous permet de révéler les différences « systémiques ». Par ailleurs, des considérations individuelles (caractéristiques des EB) et conjoncturelles (prise en compte du krach boursier du printemps 2000) sont intégrées en tant qu'autres déterminants des conditions de financement des EB. Il ressort de cette triple approche (structurelle, conjoncturelle et individuelle) (abordée selon les données de panel) que des différences s'observent au niveau agrégé entre PL et PI, et entre PL (hors USA et USA seuls) que ce soient dans les CFI ou les SF. Néanmoins, il semblerait que les émissions publiques d'actions soient partout très importantes en termes de CFI et de SF. Mais, en revanche, le coût du capital des EB n'est pas apparu significatif<br>We approached the financing of the biotech firms (BF) according to two mainstreams of research, the financing constraints (FC) and the capital structures (CS). Our objective was to look for the existence of the FC and a particular CS for high tech firms from an international point of view. To do so, we placed the countries of our sample into models of capitalism. On the one hand, we had the BF of the “neo- or ultra-liberal” countries (LC), and on the other hand, the BF of the “intermediate” countries (IC). Comparison of the models then allowed us to observe “systemic” differences in terms of our objective. Individual factors (the characteristics of the BF) and cyclical factors (taken into account by the stock market crash of spring 2000) were integrated as other determinants of BF's financing conditions. From this triple approach (structural, cyclical and individual) it emerges (according to panel data) that some differences can be observed at the aggregated level between LC and IC, and within LC (between USA alone and USA excluded) which are in the FC or CS. Nevertheless, the data indicate that the public stock issues are very important everywhere in our sample in terms of FC and CS but that the BF's cost of capital is not significant
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El, Moujabber Farid. "La nature humaine à l'ère de la technique moderne : Quelles mutations?" Thesis, Université Laval, 2012. http://www.theses.ulaval.ca/2012/29421/29421.pdf.

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MANSOURI, HOUNAYDA. "Le modele plantes transgeniques productrices d'opines : interet pour l'analyse des interactions plante-bacteries de la rhizosphere et perspectives biotechnologiques." Paris 11, 1999. http://www.theses.fr/1999PA112347.

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Le systeme utilise au laboratoire pour favoriser la croissance d'un microorganisme dans la phytosphere repose sur la production d'opines par la plante et leur degradation par les bacteries. La comparaison des populations bacteriennes de rhizosphere de lotiers sauvages et producteurs d'opines a montre que les bacteries utilisatrices d'opines etaient tres stimulees au niveau des plantes productrices. Le lotier etant l'hote vegetal de la symbiose fixatrice d'azote mesorhizobium loti/lotus, nous avons etudie l'impact de la culture de ces lotiers transgeniques sur les populations de mesorhizobium. L'etude a revele des structures de populations qui semblent etre influencees par la production d'opines. Avant d'utiliser ce systeme dans des experiences de stimulation de croissance de bacteries d'interet agronomique, nous avons evalue s'il pouvait etre valide dans d'autres conditions experimentales. Un sol different, le sol de la cote-saint-andre et une opine differente, l'octopine ont ete choisis. De meme, une autre plante, la morelle noire, a ete transformee. Dans tous les cas, nous avons mis en evidence la stimulation par les opines de populations consommatrices de ces dernieres, independamment du type de sol, d'opine et de plante. Enfin, nous avons evalue le devenir de populations utilisatrices d'opines apres elimination et remplacement de plantes productrices par des plantes non productrices. Nous avons montre que les bacteries utilisatrices se comportaient differemment selon l'opine etudiee. Les niveaux des bacteries utilisatrices de mannopine demeurent eleves meme en absence de cette derniere alors que ceux des bacteries utilisatrices de nopaline ont chute en absence de cette opine. Ce resultat est important en matiere d'evaluation de l'impact de la culture de plantes transgeniques. Il confirme que des conclusions valables pour un transgene donne ne le seront pas pour un autre, meme voisin. Il demontre aussi la possibilite d'une remanence de cet impact.
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Books on the topic "Modern biotechnologies"

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Pinang, Malaysia) International Conference on Modern Biotechnologies (2012 Pulau. International Conference on Modern Biotechnologies: Sustainable innovation and regulatory needs : 7-10 November 2012, Penang : conference proceedings. Third World Network, 2013.

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Sidorenko, Oleg. Biological systems in the processing of secondary products and agricultural waste. INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1102076.

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The manual describes technologies for processing secondary products and agricultural waste using macro-and micro-organisms. The regulations of modern biotechnologies of microbial synthesis, bioconversion of secondary raw materials are briefly presented, methods of its processing and characteristics of the obtained target products of bioconversion are described.&#x0D; Practical classes introduce students to modern methods of improving environmental quality and production waste from commercial products (organic fertilizers, bacterial preparations, feed additives, etc.), as well as obtain the cheapest fuel and energy resources (biogas, alcohols, acids, liquid biofuels, etc.). &#x0D; Meets the requirements of Federal state educational standards of higher education of the last generation.&#x0D; It is intended for students of higher educational institutions of technological specialties.
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Primrose, S. B. Modern biotechnology. Blackwell Scientific Publications, 1987.

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Albrecht, Stephan. Freiheit, Kontrolle und Verantwortlichkeit in der Gesellschaft: Moderne Biotechnologie als Lehrstück. Hamburg University Press, 2006.

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Singh, Stephanie. Semantik der Krise, Semantik der Zukunft: Die kultursemiotische Funktion der zeitgenössischen Literatur am Beispiel der Biotechnologie. Martin Meidenbauer, 2008.

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Dommering, E. J. Moderne biotechnologie en recht: Regelgeving op het gebied van recombinant DNA-technologie. Kluwer, 1995.

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Broglie, Christian. Der Lebenszyklus von Geschäftsmodellen: Idealtypischer Wachstumsverlauf in der Biotechnologie mit Fallbeispielen aus der Schweiz. Schulthess, 2004.

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Darby, Michael R. Star scientists, institutions, and the entry of Japanese biotechnology enterprises. National Bureau of Economic Research, 1996.

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Zucker, Lynne G. Capturing technological opportunity via Japan's star scientists: Evidence from Japanese firms' biotech patents and products. National Bureau of Economic Research, 1998.

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Organisation for Economic Co-operation and Development., ed. Traditional crop breeding practices: An historical review to serve as a baseline for assessing the role of modern biotechnology. Organisation for Economic Co-operation and Development, 1993.

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Book chapters on the topic "Modern biotechnologies"

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Atanassov, Atanas, Teodora Dzhambazova, Ivanka Kamenova, et al. "Modern Biotechnologies and Phytonutritional Improvement of Grape and Wine." In Phytonutritional Improvement of Crops. John Wiley & Sons, Ltd, 2017. http://dx.doi.org/10.1002/9781119079972.ch10.

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Ribaut, Jean-Marcel, Philippe Monneveux, Jean-Cristophe Glaszman, Hei Leung, Theo Van Hintum, and Carmen de Vicente. "International Programs and the Use of Modern Biotechnologies for Crop Improvement." In Genomics of Tropical Crop Plants. Springer New York, 2008. http://dx.doi.org/10.1007/978-0-387-71219-2_2.

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Renneberg, Reinhard, and Viola Berkling. "Moderne Landwirtschaft und Biotechnologie." In Biotechnologie in Cartoons. Springer Berlin Heidelberg, 2015. http://dx.doi.org/10.1007/978-3-8274-2178-4_7.

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Bianchi, Roberto. "The New Technological Paradigm in the Post-digital Era. Three Convergent Paths Between Creative Action and Computational Tools." In The Urban Book Series. Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-29515-7_31.

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AbstractThe current evolutionary situation of the post-digital era is influenced by a scientific research based on an almost unconditioned technological positivism and requires a more agile a flexible built environment, adapted to the unpredictable changes and transformations of our planet. The building sector is going through an important evolutionary phase, mainly characterized by the use of new digital technologies which have considerable impact on the organizational dimension of the design and implementation, in order to adopt innovative solutions with the least environmental impact. While the architect is replaced by machines in the worksite, the use of digital technological instruments needs a new approach toward the project and the building procedures. Within this change, the draftsman, besides engaging with multidisciplinary specialized skills ranging from computational engineering to biotechnologies and neuro-sciences, has to be proactively able to control the current space, time, and technological processes which are offered by evolved and complex computerized instruments. These go beyond formality to create new constructive realities, which are being experimented. The inorganic computational instruments of the post-digital era afford the “Total Designer” a new opportunity to rethink composition not only in terms of productivity and efficiency but to also gain a deeper understanding of empathy and experience. It is pertinent in this situation to consider the possible convergence between design thinking and technical thinking based on the development of digital algorithms. With the help of some research and case studies, this contribution analyzes the relationship between creative action and computational instrument through three main directions—representation/simulation, communication/perception, and manufacture/materialization—that encompass the essential elements characterizing the role of the designer, a draftsman that is not only aware but sensitive to modern technology.
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Hofrichter, Martin. "Die moderne Biotechnologie am Beispiel des Einsatzes von Pilzen." In Integratives Umweltmanagement. Gabler, 2010. http://dx.doi.org/10.1007/978-3-8349-8602-3_32.

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Schartl, Manfred. "Einführung." In Chancen und Risiken der modernen Biotechnologie. Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-04236-3_1.

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Propping, Peter. "Wenn die Aufklärung des persönlichen Genoms Wirklichkeit wird: Eine Einführung für die nächste Generation." In Chancen und Risiken der modernen Biotechnologie. Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-04236-3_2.

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Kolmeder, Carolin A., and Willem M. de Vos. "Darmmikrobiota: Kleine Organismen – große Wirkung." In Chancen und Risiken der modernen Biotechnologie. Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-04236-3_3.

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Gaisser, Sibylle, and Thomas Reiß. "Synthetische Biologie im Spannungsfeld von Forschung, Gesellschaft und Wirtschaft: Von der Notwendigkeit eines interdisziplinären und ergebnisoffenen Dialogs." In Chancen und Risiken der modernen Biotechnologie. Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-04236-3_4.

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Broer, Inge, Stephan Schleissing, and Gerd Spelsberg. "Natur verbessern? Der Konflikt um die Grüne Gentechnik und der Einfluss gesellschaftlicher Naturbilder." In Chancen und Risiken der modernen Biotechnologie. Springer Fachmedien Wiesbaden, 2013. http://dx.doi.org/10.1007/978-3-658-04236-3_5.

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Conference papers on the topic "Modern biotechnologies"

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Dzhangarov, Akhmed Idrisovich. "Biotechnologies In Energetics." In International Conference "Modern trends in governance and sustainable development of socio-economic systems: from regional development to global economic growth". European Publisher, 2024. http://dx.doi.org/10.15405/epms.2024.09.68.

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Levushkin, Anatoly Nikolaevich. "BIOPOLITICS, BIOMEDICINE, BIOETHICS, BIOLAW: SYNERGY OF BIOTECHNOLOGIES." In MODERN PROBLEMS AND PROSPECTS OF DEVELOPMENT PRIVATE LAW AND PUBLIC LAW REGULATION. Baskir State University, 2022. http://dx.doi.org/10.33184/spprchppr-2022-04-22.36.

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"Modern biotechnologies for the targeted modification of wheat genome." In Plant Genetics, Genomics, Bioinformatics, and Biotechnology. Institute of Cytology and Genetics, Siberian Branch of the Russian Academy of Sciences, 2019. http://dx.doi.org/10.18699/plantgen2019-116.

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Vekovtsev, A. A., A. N. Austrievskikh, and V. M. Poznyakovskiy. "Innovative health-saving biotechnologies in agro-industrial sector and medicine." In MODERN APPROACHES IN ENGINEERING AND NATURAL SCIENCES: MAENS-2021. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0144951.

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Petcu, Igor, Ion Balan, Boris Demcenco, Natalia Osadci, Feodora Rosca, and Ana Gramovici. "Poultry in the continuation of the improvement of biotechnologies for obtaining products from the food industry." In National Scientific Symposium With International Participation: Modern Biotechnologies – Solutions to the Challenges of the Contemporary World. Institute of Microbiology and Biotechnology, Republic of Moldova, 2021. http://dx.doi.org/10.52757/imb21.043.

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Rasulov, Tulkin, and Umida Umarova. "The role of modern information and communication technologies in the organization of distance education." In INTELLIGENT BIOTECHNOLOGIES OF NATURAL AND SYNTHETIC BIOLOGICALLY ACTIVE SUBSTANCES: XIV Narochanskie Readings. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0178575.

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Paladi, Dana, Eugenia Cotenco, and Iu Siromyatnikov. "Biomorphological and quantitative characteristics of tomato SC0 somaclones." In Scientific International Symposium “Advanced Biotechnologies - Achievements and Prospects” (VIth Edition). Institute of Genetics, Physiology and Plant Protection, 2022. http://dx.doi.org/10.53040/abap6.2022.108.

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With the development of cellular biology, molecular genetics, biochemistry, biophysics, microbiology and genetic engineering, artificially manipulating the genetic information of li-ving organisms became possible resulting in modern biotechnologies with special implications in the improvement of plants and animals, production of pharmaceutical and cosmetic ingre-dients, valuable chemical and bioenergetic products [1]. In vitro culture is a set of techniques that requires the use of aseptic elements and the creation of a perfectly controlled environment, being an advantageous way to increase the chances of inducing and obtaining somaclonal ge-netic variability and stable genetic somaclones [2].
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Daraban, Gabriel Mihaita, Carmen Zaharia, Marinela Bădeanu, and Daniela Suteu. "Modern approaches in agriculture for environmental protection and the origin of product quality: the use of biopesticides." In National Scientific Symposium With International Participation: Modern Biotechnologies – Solutions to the Challenges of the Contemporary World. Institute of Microbiology and Biotechnology, Republic of Moldova, 2021. http://dx.doi.org/10.52757/imb21.020.

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Kartashova, Nelli, L. Koltunova, and E. Kartashov. "ANALYSIS OF ECOLOGICAL SETTLEMENTS IN DIFFERENT COUNTRIES." In Biotechnologies in innovative afforestation and reforestation, monitoring of forest and forest reclamation systems. FSBE Institution of Higher Education Voronezh State University of Forestry and Technologies named after G.F. Morozov, 2024. https://doi.org/10.58168/biarmffrs2024_83-88.

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In recent decades, there has been a significant desire to create sustainable and environmentally friendly settlements that are able to combine smart transport management systems, energy conservation, resource optimization, information and communication technologies, the use of green construction and eco-design to ensure comfortable living with minimal environmental impact and maximum benefit for residents. Such settlements become role models and serve as an example of how modern technologies and thoughtful urban solutions can go hand in hand with caring for nature. In many countries of the world, there are eco–settlements that differ in structure, principles, and planning structure, but they are similar in one thing - they contribute to the creation of environmentally friendly settlements.
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Corcimaru, Serghei, Lilia Mereniuc, and Feodora Sitnic. "Microbiological tools for assessment and prediction of the impact of soil management on soil organic matter in Moldovan chernozems." In National Scientific Symposium With International Participation: Modern Biotechnologies – Solutions to the Challenges of the Contemporary World. Institute of Microbiology and Biotechnology, Republic of Moldova, 2021. http://dx.doi.org/10.52757/imb21.001.

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