Structural diversity and distribution of NMCP-class nuclear lamina proteins in streptophytic algae

Nuclear Matrix Constituent Proteins (NMCPs) in plants function like animal lamins, providing the structural foundation of the nuclear lamina and regulating nuclear organization and morphology. Although they are well-characterized in angiosperms, the presence and structure of NMCPs in more distantly related species, such as streptophytic algae, are relatively unknown. The rapid evolution of NMCPs throughout the plant lineage has caused a divergence in protein sequence that makes similarity-based searches less effective. Structural features are more likely to be conserved compared to primary amino acid sequence; therefore, we developed a filtration protocol to search for diverged NMCPs based on four physical characteristics: intrinsically disordered content, isoelectric point, number of amino acids, and the presence of a central coiled-coil domain. By setting parameters to recognize the properties of bona fide NMCP proteins in angiosperms, we filtered seven complete proteomes from streptophytic algae species and identified strong NMCP candidates in five taxa in the Classes Zygnematophyceae, Charophyceae, and Klebsormidophyceae. Through analysis of these proteins, we observed structural variance in domain size between NMCPs in algae and land plants, as well as a single block of amino acid conservation. Our analysis indicates that NMCPs are absent in the Mesostigmatophyceae. The presence versus absence of NMCP proteins in different streptophytic algae allows us to draw inferences about the evolution of NMCP proteins and their relationship to different forms of mitosis throughout the plant lineage.