Algae10.4490/algae.2022.37.2.16202237175-84Intercellular transport across pit-connections in the filamentous red alga Griffithsia monilisGwang Hoon Kim, Chikako Nagasato, Minseok Kwak, Ji Woong Lee, Chan Young Hong, Tatyana A. Klochkova, Taizo Motomura,,
Algae10.4490/algae.2023.38.9.62023383183-190Synchronous nuclear division and the role of the cytoskeleton in the multinucleate red alga <italic>Griffithsia monilis</italic>Chan Young Hong, Ji Ho Yun, Minseok Kwak, Jong Seok Moon, Gwang Hoon Kim,,
Cells10.3390/cells11132124202211132124ROS Signaling Mediates Directional Cell Elongation and Somatic Cell Fusion in the Red Alga Griffithsia monilisJong-Seok Moon, Chan-Young Hong, Ji-Woong Lee, Gwang-Hoon Kim
Protoplasma10.1007/bf016034511935231452-452Electrical control of rhizoid formation in the red alga, Griffithsia bornetiana,,
Planta10.1007/bf0039518119811513281-288Photosynthesis and respiration of Griffithsia monilis (Rhodophyceae): Effect of light, salinity, and oxygenGunter O. Kirst,,
Plant Direct10.1002/pld3.45201822Red algal Rubisco fails to accumulate in transplastomic tobacco expressing Griffithsia monilis RbcL and RbcS genesMyat T. Lin, Maureen R. Hanson,,,,,
Algae10.4490/algae.2022.37.11.182022374301-316Tropical red alga <italic>Compsopogon caeruleus</italic>: an indicator of thermally polluted waters of Europe in the context of temperature and oxygen requirementsAndrzej S. Rybak, Andrzej M. Woyda-Ploszczyca,,
Protoplasma10.1007/bf0211597019811061-2167-172Morphological and fine structural features of pit connections inCryptonemia sp., a highly differentiated marine red alga from AustraliaR. Wetherbee, G. T. Kraft,,
Planta10.1007/bf0038539119721053196-204Development in the red alga, Griffithsia pacifica: Control by internal and external factorsSusan Drury Waaland, Robert Cleland,,
Planta10.1007/bf0038575419801495493-497Isolation of a cell-fusion hormone from Griffithsia pacifica kylin, a red algaSusan D. Waaland, Bruce A. Watson,,