作者
Xuehuan Feng,Jinfang Zheng,Iker Irisarri,Huihui Yu,Bo Zheng,Zahin Ali,Sophie de Vries,Jean Keller,Janine M. R. Fürst‐Jansen,Armin Dadras,Jaccoline Zegers,Tim P. Rieseberg,Amra Dhabalia Ashok,Tatyana Darienko,Maaike J. Bierenbroodspot,Lydia Gramzow,Romy Petroll,Fabian B. Haas,Noé Fernández‐Pozo,Orestis Nousias,Li Tang,Elisabeth Fitzek,W Scott Grayburn,Nina Rittmeier,Charlotte Permann,Florian Rümpler,John M Archibald,Günter Theißen,Jeffrey P. Mower,Maike Lorenz,Henrik Buschmann,Klaus von Schwartzenberg,Lori Beth Boston,Richard D. Hayes,Chris Daum,Kerrie Barry,Igor V. Grigoriev,Xiyin Wang,Fay‐Wei Li,Stefan A. Rensing,Julius Ben Ari,Noa Keren,Assaf Mosquna,Andreas Holzinger,Pierre‐Marc Delaux,Chi Zhang,Jinling Huang,Marek Mutwil,Jan de Vries,Yanbin Yin
摘要
Abstract Zygnematophyceae are the algal sisters of land plants. Here we sequenced four genomes of filamentous Zygnematophyceae, including chromosome-scale assemblies for three strains of Zygnema circumcarinatum . We inferred traits in the ancestor of Zygnematophyceae and land plants that might have ushered in the conquest of land by plants: expanded genes for signaling cascades, environmental response, and multicellular growth. Zygnematophyceae and land plants share all the major enzymes for cell wall synthesis and remodifications, and gene gains shaped this toolkit. Co-expression network analyses uncover gene cohorts that unite environmental signaling with multicellular developmental programs. Our data shed light on a molecular chassis that balances environmental response and growth modulation across more than 600 million years of streptophyte evolution.