Hallmann A. Advances in Genetic Engineering of Microalgae. In: Grand Challenges in Algae Biotechnology. Grand Challenges in Biology and Biotechnology. Cham: Springer International Publishing; 2020: 159-221
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
Photosynthetic protists, also called microalgae, have been systematically studied for more than a ce...
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
Hallmann A, Rampelotto PH, eds. Grand Challenges in Algae Biotechnology. Grand Challenges in Biology...
Hallmann A. Current Advances in Algae Biotechnology (III). Editorial. Current Biotechnology. 2016;5(...
Hallmann A. Current Advances in Algae Biotechnology (II). Editorial. Current Biotechnology. 2016;5(2...
Hallmann A. Current Advances in Algae Biotechnology (I). Editorial. Current Biotechnology. 2015;4(4)...
Hallmann A. Algal transgenics and biotechnology. Transgenic Plant J. 2007;1(1):81-98
Recently, microalgal biotechnology has received increasing interests in producing valuable, sustaina...
Even though sunlight energy far outweighs the energy required by human activities, its utilization i...
Algae are a component of bait sources for animal aquaculture, and they produce abundant valuable com...
Green algae present a unique platform for bioengineering and biomanufacturing; they grow rapidly, ph...
Domesticated microalgae hold great promise for the sustainable provision of various bioresources for...
An advanced understanding of the genetics of microalgae and the availability of molecular biology to...
Hallmann A. Algae Biotechnology – Green Cell-Factories on the Rise. Current Biotechnology. 2015;4(4)...
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
Photosynthetic protists, also called microalgae, have been systematically studied for more than a ce...
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
Hallmann A, Rampelotto PH, eds. Grand Challenges in Algae Biotechnology. Grand Challenges in Biology...
Hallmann A. Current Advances in Algae Biotechnology (III). Editorial. Current Biotechnology. 2016;5(...
Hallmann A. Current Advances in Algae Biotechnology (II). Editorial. Current Biotechnology. 2016;5(2...
Hallmann A. Current Advances in Algae Biotechnology (I). Editorial. Current Biotechnology. 2015;4(4)...
Hallmann A. Algal transgenics and biotechnology. Transgenic Plant J. 2007;1(1):81-98
Recently, microalgal biotechnology has received increasing interests in producing valuable, sustaina...
Even though sunlight energy far outweighs the energy required by human activities, its utilization i...
Algae are a component of bait sources for animal aquaculture, and they produce abundant valuable com...
Green algae present a unique platform for bioengineering and biomanufacturing; they grow rapidly, ph...
Domesticated microalgae hold great promise for the sustainable provision of various bioresources for...
An advanced understanding of the genetics of microalgae and the availability of molecular biology to...
Hallmann A. Algae Biotechnology – Green Cell-Factories on the Rise. Current Biotechnology. 2015;4(4)...
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
Photosynthetic protists, also called microalgae, have been systematically studied for more than a ce...
Transgenic microalgae have the potential to impact many diverse biotechnological industries includin...
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