Results 141 to 150 of about 12,888 (189)
Some of the next articles are maybe not open access.
Marine Natural Products from Tunicates and Their Associated Microbes
Marine Drugs, 2021Ramesh Chatragadda, Laurent Dufossé
exaly
Global ecological and biogeochemical impacts of pelagic tunicates
Progress in Oceanography, 2022Jessica Luo, Charles A Stock
exaly
1984
Very little work on these animals has been reported since the first edition of this book. An important observation, however, is that cynthiaxanthin first isolated from Halocynthia (Cynthia) papillosa [1–5], and pectenoxanthin from Botryllus schlosseri [2] are identical with the acetylenic carotenoid alloxanthin (1.2) [6]. Astaxanthin (1.1) is the major
openaire +1 more source
Very little work on these animals has been reported since the first edition of this book. An important observation, however, is that cynthiaxanthin first isolated from Halocynthia (Cynthia) papillosa [1–5], and pectenoxanthin from Botryllus schlosseri [2] are identical with the acetylenic carotenoid alloxanthin (1.2) [6]. Astaxanthin (1.1) is the major
openaire +1 more source
Bioprinting of bioactive tissue scaffolds from ecologically-destructive fouling tunicates
Journal of Cleaner Production, 2022Vijayavenkatraman Sanjairaj +1 more
exaly
2006
Tunicates are marine animals close to vertebrates, and have the ability, unique among chordates, to form large colonies of clonal individuals. Among tunicates, the most frequently studied ascidians represent an ideal model for investigating aspects of epigenetics evidenced during the various phases of the life-cycle.
BURIGHEL, PAOLO, MANNI, LUCIA
openaire +1 more source
Tunicates are marine animals close to vertebrates, and have the ability, unique among chordates, to form large colonies of clonal individuals. Among tunicates, the most frequently studied ascidians represent an ideal model for investigating aspects of epigenetics evidenced during the various phases of the life-cycle.
BURIGHEL, PAOLO, MANNI, LUCIA
openaire +1 more source