ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

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Bioarrays : From Basics to Diagnostics (2007)

Appasani, Krishnarao ; Southern, Edwin M.

Totowa, NJ : Humana Press

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Keywords: Biochemistry ; Biotechnology ; Cell biology ; Human genetics

ISBN: 9781597453288

URL: https://doi.org/10.1007/978-1-59745-328-8

Language: English

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Agricultural Implications of the Fukushima Nuclear Accident (2013)

Nakanishi, Tomoko M ; Tanoi, Keitaro

Tokyo : Springer

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Keywords: Environment ; Food ; Biotechnology ; Agriculture ; Animal ecology ; Plant ecology ; Marine sciences ; Freshwater ; Environment ; Environmental Monitoring/Analysis ; Agriculture ; Food Science ; Plant Ecology ; Animal Ecology ; Marine & Freshwater Sciences

Description / Table of Contents: 1. The overview of our research (Tomoko M. Nakanishi) --- 2. Behavior of radiocesium adsorbed by the leaves and stems of wheat plant during the first year after the Fukushima Daiichi nuclear power plant accident (K. Tanoi) --- 3. Radiocesium Absorption by Rice in Paddy Field Ecosystems (K. Nemoto and J. Abe) --- 4. Cesium uptake in rice: possible transporter, distribution and variation (T. Fujiwara) --- 5. Time-course Analysis of Radiocesium Uptake and Translocation in Rice by Radioisotope Imaging (N. I. Kobayashi) --- 6. Vertical migration of Radiocesium fallout in soil in Fukushima (S. Shiozawa) --- 7. Radioactive Nuclides in Vegetables and Soil Resulting from Low-Level Radioactive Fallout after the Fukushima Daiichi Nuclear Power Plant Accident: Case Studies in Tokyo and Fukushima (S. Oshita) --- 8. Radioactivity in agricultural products in Fukushima (N. Nihei) --- 9. Changes in the transfer of fallout radiocesium from pasture harvested in Ibaraki Prefecture, Japan, to cow milk two months after the Fukushima Daiichi nuclear power plant accident (N. Manabe, T. Takahashi, J.-Y. Li, K. Tanoi, and T. M. Nakanishi) --- 10. Radiocesium contamination of marine fish muscle and its effective elimination (S. Watabe, H. Ushio, D. Ikeda) --- 11. Excretion of cesium through potassium transport pathway in the gills of a marine teleosts (T. Kaneko, F. Furukawa and S. Watanabe) --- 12. Contamination of wild animals: Effects on wildlife on high radioactivity areas of the agricultural and forest landscape (K. Ishida) --- 13. Remediation of paddy soil contaminated by radiocesium in Iitate Village in Fukushima Prefecture (M. Mizoguchi) --- 14. Distribution of radiocesium from the radioactive fallout in fruit trees (D. Takata) --- 15. Mushrooms¬: Radioactive Contamination of Widespread Mushrooms in Japan (T. Yamada) --- 16. Diffusion and transportation dynamics of 137Cs deposited on the forested area in Fukushima after the Fukushima Daiichi nuclear power plant accident in March 2011 (N. Ohte, M. Murakami, T. Suzuki, K. Iseda, K. Tanoi, and N. Ishii) --- 17. Developing an information package of radiation risk in beef after Fukushima Daiichi nuclear power plant accident (H. Hosono)

Pages: Online-Ressource (X, 204 pages) , 96 illustrations, 69 illustrations in color

ISBN: 9784431543282

URL: https://link.springer.com/openurl?genre=book&isbn=978-4-431-54328-2

Language: English

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3

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Agricultural Implications of the Fukushima Nuclear Accident (2013)

Nakanishi, Tomoko M ; Tanoi, Keitaro

Tokyo : Springer

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Keywords: Environment ; Food ; Biotechnology ; Agriculture ; Animal ecology ; Plant ecology ; Marine sciences ; Freshwater ; Environment ; Environmental Monitoring/Analysis ; Agriculture ; Food Science ; Plant Ecology ; Animal Ecology ; Marine & Freshwater Sciences

Description / Table of Contents: 1. The overview of our research (Tomoko M. Nakanishi) --- 2. Behavior of radiocesium adsorbed by the leaves and stems of wheat plant during the first year after the Fukushima Daiichi nuclear power plant accident (K. Tanoi) --- 3. Radiocesium Absorption by Rice in Paddy Field Ecosystems (K. Nemoto and J. Abe) --- 4. Cesium uptake in rice: possible transporter, distribution and variation (T. Fujiwara) --- 5. Time-course Analysis of Radiocesium Uptake and Translocation in Rice by Radioisotope Imaging (N. I. Kobayashi) --- 6. Vertical migration of Radiocesium fallout in soil in Fukushima (S. Shiozawa) --- 7. Radioactive Nuclides in Vegetables and Soil Resulting from Low-Level Radioactive Fallout after the Fukushima Daiichi Nuclear Power Plant Accident: Case Studies in Tokyo and Fukushima (S. Oshita) --- 8. Radioactivity in agricultural products in Fukushima (N. Nihei) --- 9. Changes in the transfer of fallout radiocesium from pasture harvested in Ibaraki Prefecture, Japan, to cow milk two months after the Fukushima Daiichi nuclear power plant accident (N. Manabe, T. Takahashi, J.-Y. Li, K. Tanoi, and T. M. Nakanishi) --- 10. Radiocesium contamination of marine fish muscle and its effective elimination (S. Watabe, H. Ushio, D. Ikeda) --- 11. Excretion of cesium through potassium transport pathway in the gills of a marine teleosts (T. Kaneko, F. Furukawa and S. Watanabe) --- 12. Contamination of wild animals: Effects on wildlife on high radioactivity areas of the agricultural and forest landscape (K. Ishida) --- 13. Remediation of paddy soil contaminated by radiocesium in Iitate Village in Fukushima Prefecture (M. Mizoguchi) --- 14. Distribution of radiocesium from the radioactive fallout in fruit trees (D. Takata) --- 15. Mushrooms¬: Radioactive Contamination of Widespread Mushrooms in Japan (T. Yamada) --- 16. Diffusion and transportation dynamics of 137Cs deposited on the forested area in Fukushima after the Fukushima Daiichi nuclear power plant accident in March 2011 (N. Ohte, M. Murakami, T. Suzuki, K. Iseda, K. Tanoi, and N. Ishii) --- 17. Developing an information package of radiation risk in beef after Fukushima Daiichi nuclear power plant accident (H. Hosono)

Pages: Online-Ressource (X, 204 pages) , 96 illustrations, 69 illustrations in color

ISBN: 9784431543282

URL: https://link.springer.com/openurl?genre=book&isbn=978-4-431-54328-2

Language: English

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Enzymes from Extreme Environments (2021)

Noha M. Mesbah ; Felipe Sarmiento

Frontiers Media SA

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Publication Date: 2024-04-11

Description: Enzymes are nature’s biocatalysts empowered with high catalytic power and remarkable substrate specificity. Enzymes perform a wide range of functions throughout nature, and guide the biochemistry of life with great precision. The majority of enzymes perform under conditions considered normal for mesophilic, neutrophilic, terrestrial microorganisms. However, the Earth’s biosphere contains several regions that are extreme in comparison, such as hypersaline lakes and pools, hydrothermal vents, cold oceans, dry deserts and areas exposed to intensive radiation. These areas are inhabited by a large number of extremophilic microorganisms which produce enzymes capable of functioning in unusual conditions. There is an increasing biotechnological and industrial demand for enzymes stable and functioning in harsh conditions, and over the past decade screening for, isolation and production of enzymes with unique and extreme properties has become one of the foremost areas of biotechnology research. The development of advanced molecular biology tools has facilitated the quest for production of enzymes with optimized and extreme features. These tools include large-scale screening for potential genes using metagenomics, engineering of enzymes using computational techniques and site-directed mutagenesis and molecular evolution techniques. The goal of this Research Topic is to present reports on latest advances in enzymes from all types of extreme environments. Contributions dealing with isolation of enzymes from extremophilic microorganisms or directly from natural environments, screening for and expression of enzymes with extreme properties using metagenomic approaches are welcome. In addition, contributions dealing with all forms of biocatalyst production and improvement are welcome, such as fermentation technology, protein engineering, directed evolution, rational design, and immobilization techniques.

Keywords: TP248.13-248.65 ; TA1-2040 ; Biotechnology ; Biocatalysis ; alkaliphile ; psychrophile ; extremophile ; Extremozyme ; halophile ; industrial enzymes ; thermophile ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TC Biochemical engineering::TCB Biotechnology

Language: English

Format: image/jpeg

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5

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Establishment of gene bank of inland water fish species (2021)

Rezvani Gilkolaei, Sohrab ; Asadpour, Y.A. ; Laloei, F. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

In: http://aquaticcommons.org/id/eprint/25716 | 18721 | 2018-10-14 03:15:28 | 25716 | Iranian Fisheries Science Research Institute

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Publication Date: 2021-07-16

Description: Genetic knowledge helps to protect biodiversity and optimal harvest resources by several ways. This knowledge can help to reduce the risk of extinction to those populations that have high genetic diversity or diminished by detected them. Also, studies of population genetics can present guidelines for improving the structure of the population and understanding the biology of species. One of the most important applications of DNA database is detecting species, fishing offense, diagnose of anemia and genetic classification of animals. DNA bank has helped to identify the species that are hunted and were discovered only parts of their meat and texture. Optimal Storage of aquatic genetic resources and the conservation of biological diversity, as the national capital by using biotechnology methods are the most important goals of gene bank and database reserves of the country creation. Collecting biological specimens of aquatic species, preparation and long-term maintenance of them, genetic registration of endangered and threatened species and the use of biotechnology techniques for the protection, conservation and management of aquatic genetic resources is one of the other functions of the gene bank. Gene bank of inland waters of Iran (Gorgan) is planned and implemented to identify, collect, maintain and protect species at the level of genes, cells, tissues and live fish research and commercial exploitation. Despite the predicted projected funding for this project, unfortunately funding sources have been considered, does not allocated. Therefore some parts of the aims of this project has been organized by Golestan province credits to build molecular laboratory and aquaculture pond in Alang farm and exploitation of potential Gharasou station and Sijoval center restocking and the conditions for the bulk of the project goals is provided. Some parts like tissue culture laboratory and bioinformatics as well as parts and equipment related to the freezing of sperm and embryo development are the items that should be considered in the development of the this bank.

Keywords: Biology ; Iran ; Inland Water ; GenBank ; Gene Bank ; Fish ; Species ; Genetic ; Biotechnology

Repository Name: AquaDocs

Type: monograph

Format: application/pdf

Format: 74

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6

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Establishment of gene bank of inland water fish species (2018)

Rezvani Gilkolaei, Sohrab ; Asadpour, Y.A. ; Laloei, F. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

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Publication Date: 2021-12-05

Description: Genetic knowledge helps to protect biodiversity and optimal harvest resources by several ways. This knowledge can help to reduce the risk of extinction to those populations that have high genetic diversity or diminished by detected them. Also, studies of population genetics can present guidelines for improving the structure of the population and understanding the biology of species. One of the most important applications of DNA database is detecting species, fishing offense, diagnose of anemia and genetic classification of animals. DNA bank has helped to identify the species that are hunted and were discovered only parts of their meat and texture. Optimal Storage of aquatic genetic resources and the conservation of biological diversity, as the national capital by using biotechnology methods are the most important goals of gene bank and database reserves of the country creation.Collecting biological specimens of aquatic species, preparation and long-term maintenance of them, genetic registration of endangered and threatened species and the use of biotechnology techniques for the protection, conservation and management of aquatic genetic resources is one of the other functions of the gene bank. Gene bank of inland waters of Iran (Gorgan) is planned and implemented to identify, collect, maintain and protect species at the level of genes, cells, tissues and live fish research and commercial exploitation. Despite the predicted projected funding for this project, unfortunately funding sources have been considered, does not allocated. Therefore some parts of the aims of this project has been organized by Golestan province credits to build molecular laboratory and aquaculture pond in Alang farm and exploitation of potential Gharasou station and Sijoval center restocking and the conditions for the bulk of the project goals is Provided. Some parts like tissue culture laboratory and bioinformatics as well as parts and equipment related to the freezing of sperm and embryo development are the items that should be considered in the development of the this bank.

Description: Iranian Fisheries Science Research Institute

Description: Published

Keywords: GenBank ; Gene Bank ; Fish ; Species ; Genetic ; Biotechnology

Repository Name: AquaDocs

Type: Report , Refereed

Format: 74pp.

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7

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High-level semi-synthetic production of the potent antimalarial artemisinin (2013)

C. J. Paddon ; P. J. Westfall ; D. J. Pitera ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 496(7446): 528-32. doi: 10.1038/nature12051.

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Publication Date: 2013-04-12

Description: In 2010 there were more than 200 million cases of malaria, and at least 655,000 deaths. The World Health Organization has recommended artemisinin-based combination therapies (ACTs) for the treatment of uncomplicated malaria caused by the parasite Plasmodium falciparum. Artemisinin is a sesquiterpene endoperoxide with potent antimalarial properties, produced by the plant Artemisia annua. However, the supply of plant-derived artemisinin is unstable, resulting in shortages and price fluctuations, complicating production planning by ACT manufacturers. A stable source of affordable artemisinin is required. Here we use synthetic biology to develop strains of Saccharomyces cerevisiae (baker's yeast) for high-yielding biological production of artemisinic acid, a precursor of artemisinin. Previous attempts to produce commercially relevant concentrations of artemisinic acid were unsuccessful, allowing production of only 1.6 grams per litre of artemisinic acid. Here we demonstrate the complete biosynthetic pathway, including the discovery of a plant dehydrogenase and a second cytochrome that provide an efficient biosynthetic route to artemisinic acid, with fermentation titres of 25 grams per litre of artemisinic acid. Furthermore, we have developed a practical, efficient and scalable chemical process for the conversion of artemisinic acid to artemisinin using a chemical source of singlet oxygen, thus avoiding the need for specialized photochemical equipment. The strains and processes described here form the basis of a viable industrial process for the production of semi-synthetic artemisinin to stabilize the supply of artemisinin for derivatization into active pharmaceutical ingredients (for example, artesunate) for incorporation into ACTs. Because all intellectual property rights have been provided free of charge, this technology has the potential to increase provision of first-line antimalarial treatments to the developing world at a reduced average annual price.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Paddon, C J -- Westfall, P J -- Pitera, D J -- Benjamin, K -- Fisher, K -- McPhee, D -- Leavell, M D -- Tai, A -- Main, A -- Eng, D -- Polichuk, D R -- Teoh, K H -- Reed, D W -- Treynor, T -- Lenihan, J -- Fleck, M -- Bajad, S -- Dang, G -- Dengrove, D -- Diola, D -- Dorin, G -- Ellens, K W -- Fickes, S -- Galazzo, J -- Gaucher, S P -- Geistlinger, T -- Henry, R -- Hepp, M -- Horning, T -- Iqbal, T -- Jiang, H -- Kizer, L -- Lieu, B -- Melis, D -- Moss, N -- Regentin, R -- Secrest, S -- Tsuruta, H -- Vazquez, R -- Westblade, L F -- Xu, L -- Yu, M -- Zhang, Y -- Zhao, L -- Lievense, J -- Covello, P S -- Keasling, J D -- Reiling, K K -- Renninger, N S -- Newman, J D -- England -- Nature. 2013 Apr 25;496(7446):528-32. doi: 10.1038/nature12051. Epub 2013 Apr 10.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉Amyris, Inc., 5885 Hollis Street, Suite 100, Emeryville, California 94608, USA. paddon@amyris.com〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/23575629" target="_blank"〉PubMed〈/a〉

Keywords: Antimalarials/economics/isolation & purification/metabolism/supply & distribution ; Artemisinins/chemistry/economics/isolation & purification/*metabolism/*supply & ; distribution ; *Biosynthetic Pathways ; Biotechnology ; Fermentation ; Genetic Engineering ; Malaria, Falciparum/drug therapy ; Molecular Sequence Data ; Saccharomyces cerevisiae/classification/genetics/growth & development/*metabolism ; Singlet Oxygen/metabolism

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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Efficient ethanol production from brown macroalgae sugars by a synthetic yeast platform (2013)

M. Enquist-Newman ; A. M. Faust ; D. D. Bravo ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 505(7482): 239-43. doi: 10.1038/nature12771.

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Publication Date: 2013-12-03

Description: The increasing demands placed on natural resources for fuel and food production require that we explore the use of efficient, sustainable feedstocks such as brown macroalgae. The full potential of brown macroalgae as feedstocks for commercial-scale fuel ethanol production, however, requires extensive re-engineering of the alginate and mannitol catabolic pathways in the standard industrial microbe Saccharomyces cerevisiae. Here we present the discovery of an alginate monomer (4-deoxy-L-erythro-5-hexoseulose uronate, or DEHU) transporter from the alginolytic eukaryote Asteromyces cruciatus. The genomic integration and overexpression of the gene encoding this transporter, together with the necessary bacterial alginate and deregulated native mannitol catabolism genes, conferred the ability of an S. cerevisiae strain to efficiently metabolize DEHU and mannitol. When this platform was further adapted to grow on mannitol and DEHU under anaerobic conditions, it was capable of ethanol fermentation from mannitol and DEHU, achieving titres of 4.6% (v/v) (36.2 g l(-1)) and yields up to 83% of the maximum theoretical yield from consumed sugars. These results show that all major sugars in brown macroalgae can be used as feedstocks for biofuels and value-added renewable chemicals in a manner that is comparable to traditional arable-land-based feedstocks.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Enquist-Newman, Maria -- Faust, Ann Marie E -- Bravo, Daniel D -- Santos, Christine Nicole S -- Raisner, Ryan M -- Hanel, Arthur -- Sarvabhowman, Preethi -- Le, Chi -- Regitsky, Drew D -- Cooper, Susan R -- Peereboom, Lars -- Clark, Alana -- Martinez, Yessica -- Goldsmith, Joshua -- Cho, Min Y -- Donohoue, Paul D -- Luo, Lily -- Lamberson, Brigit -- Tamrakar, Pramila -- Kim, Edward J -- Villari, Jeffrey L -- Gill, Avinash -- Tripathi, Shital A -- Karamchedu, Padma -- Paredes, Carlos J -- Rajgarhia, Vineet -- Kotlar, Hans Kristian -- Bailey, Richard B -- Miller, Dennis J -- Ohler, Nicholas L -- Swimmer, Candace -- Yoshikuni, Yasuo -- England -- Nature. 2014 Jan 9;505(7482):239-43. doi: 10.1038/nature12771. Epub 2013 Dec 1.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉1] Bio Architecture Lab Inc., 604 Bancroft Way, Suite A, Berkeley, California 94710, USA [2]. ; 1] Bio Architecture Lab Inc., 604 Bancroft Way, Suite A, Berkeley, California 94710, USA [2] Manus Biosynthesis Inc., 790 Memorial Drive, Suite 102, Cambridge, Massachusetts 02139 (C.N.S.S.); Calysta Energy, 1140 O'Brien Drive, Menlo Park, California 94025 (D.D.R.); Sutro Biopharma lnc., 310 Utah Avenue, Suite 150, South San Francisco, California 94080, USA (A.G.); Total New Energies USA, 5858 Horton Street, Emeryville, California 94560 (S.A.T.; V.R.). ; Bio Architecture Lab Inc., 604 Bancroft Way, Suite A, Berkeley, California 94710, USA. ; Department of Chemical Engineering and Materials Science, Michigan State University, 2527 Engineering Building, East Lansing, Michigan 48824-1226, USA. ; Statoil ASA, Statoil Research Centre, Arkitekt Ebbells vei 10, Rotvoll, 7005 Trondheim, Norway. ; 1] Bio Architecture Lab Inc., 604 Bancroft Way, Suite A, Berkeley, California 94710, USA [2] BALChile S.A., Badajoz 100, Oficina 1404, Las Condes, Santiago 7550000, Chile [3] BAL Biofuels S.A., Badajoz 100, Oficina 1404, Las Condes, Santiago 7550000, Chile.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/24291791" target="_blank"〉PubMed〈/a〉

Keywords: Alginates/metabolism ; Anaerobiosis ; Ascomycota/genetics/metabolism ; Biofuels/*supply & distribution ; Biotechnology ; *Carbohydrate Metabolism ; Carrier Proteins/genetics/metabolism ; Ethanol/*metabolism ; Evolution, Molecular ; Fermentation ; Genetic Complementation Test ; *Genetic Engineering ; Glucuronic Acid/metabolism ; Hexuronic Acids/metabolism ; Mannitol/metabolism ; Phaeophyta/genetics/*metabolism ; Quinic Acid/metabolism ; Reproducibility of Results ; Saccharomyces cerevisiae/genetics/*metabolism ; Seaweed/genetics/metabolism ; Uronic Acids/metabolism

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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Continuous evolution of Bacillus thuringiensis toxins overcomes insect resistance (2016)

A. H. Badran ; V. M. Guzov ; Q. Huai ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 533(7601): 58-63. doi: 10.1038/nature17938.

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Publication Date: 2016-04-28

Description: The Bacillus thuringiensis delta-endotoxins (Bt toxins) are widely used insecticidal proteins in engineered crops that provide agricultural, economic, and environmental benefits. The development of insect resistance to Bt toxins endangers their long-term effectiveness. Here we have developed a phage-assisted continuous evolution selection that rapidly evolves high-affinity protein-protein interactions, and applied this system to evolve variants of the Bt toxin Cry1Ac that bind a cadherin-like receptor from the insect pest Trichoplusia ni (TnCAD) that is not natively bound by wild-type Cry1Ac. The resulting evolved Cry1Ac variants bind TnCAD with high affinity (dissociation constant Kd = 11-41 nM), kill TnCAD-expressing insect cells that are not susceptible to wild-type Cry1Ac, and kill Cry1Ac-resistant T. ni insects up to 335-fold more potently than wild-type Cry1Ac. Our findings establish that the evolution of Bt toxins with novel insect cell receptor affinity can overcome insect Bt toxin resistance and confer lethality approaching that of the wild-type Bt toxin against non-resistant insects.〈br /〉〈br /〉〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4865400/" target="_blank"〉〈img src="https://static.pubmed.gov/portal/portal3rc.fcgi/4089621/img/3977009" border="0"〉〈/a〉 〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4865400/" target="_blank"〉This paper as free author manuscript - peer-reviewed and accepted for publication〈/a〉〈br /〉〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Badran, Ahmed H -- Guzov, Victor M -- Huai, Qing -- Kemp, Melissa M -- Vishwanath, Prashanth -- Kain, Wendy -- Nance, Autumn M -- Evdokimov, Artem -- Moshiri, Farhad -- Turner, Keith H -- Wang, Ping -- Malvar, Thomas -- Liu, David R -- R01 EB022376/EB/NIBIB NIH HHS/ -- R01EB022376/EB/NIBIB NIH HHS/ -- Howard Hughes Medical Institute/ -- England -- Nature. 2016 May 5;533(7601):58-63. doi: 10.1038/nature17938. Epub 2016 Apr 27.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉Department of Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts 02138, USA. ; Howard Hughes Medical Institute, Harvard University, Cambridge, Massachusetts 02138, USA. ; Monsanto Company, 245 First Street, Suite 200, Cambridge, Massachusetts 02142, USA. ; Department of Entomology, Cornell University, Geneva, New York 14456, USA. ; Monsanto Company, 700 Chesterfield Parkway West, Chesterfield, Missouri 63017, USA.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/27120167" target="_blank"〉PubMed〈/a〉

Keywords: Amino Acid Sequence ; Animals ; Bacillus thuringiensis/*genetics ; Bacterial Proteins/*genetics/*metabolism ; Bacteriophages/genetics ; Biotechnology ; Cadherins/metabolism ; Cell Death ; Consensus Sequence ; Crops, Agricultural/genetics/metabolism ; Directed Molecular Evolution/*methods ; Endotoxins/*genetics/*metabolism ; Genetic Variation/*genetics ; Hemolysin Proteins/*genetics/*metabolism ; *Insecticide Resistance ; Insecticides/metabolism ; Molecular Sequence Data ; Moths/cytology/*physiology ; Mutagenesis/genetics ; Pest Control, Biological/*methods ; Plants, Genetically Modified ; Protein Binding/genetics ; Protein Stability ; Selection, Genetic

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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National roadmap for aquatic organisms biological products (2018)

Sadrian, Mansour ; Motalebi, A.A. ; Sharifrohani, M. ; [et al.]

Iranian Fisheries Science Research Institute | Tehran, Iran

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Publication Date: 2021-05-19

Description: Specialists in Marine biotechnology using marine biological engineering and scientific principles to develop natural products and regarded services. One of the most important applications of this new branch is produce the natural products such as enzymes, natural colors, vaccines and drugs and etc. which produced from marine living organisms. These products are used in various industries such as pharmaceutical, food or health industry. In the current study, we try to remark the application of marine biological products in the northern (Caspian Sea), southern (Persian Gulf and Oman Sea) or internal waters of Iran into six categories, including aquaculture, pharmaceutical industry, food, healthcare and cosmetic industries. For this purpose, the required information will be collected using investigations which conducted inside and also outside of our country by reviewing and analysis of derived data by attention to our economical facilities for national self-sufficiency in production. Applied research projects will be introduced in three parts including research, technology development and pilot plant as well. Hope that using this strategic document will be effective and practical to production of biological products from marine resources until 2025.

Description: Iranian Fisheries Science Research Institute

Description: Published

Keywords: Enzymes ; Marine ; Biological ; Biotechnology ; Aquatic

Repository Name: AquaDocs

Type: Report , Refereed

Format: 131pp.

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