Naslov
A novel type of colony formation in marine planktonic diatoms revealed by atomic force microscopy

Autori
Bosak, Sunčica ; Pletikapić, Galja ; Hozić, Amela ; Svetličić, Vesna ; Sarno, Diana ; Viličić, Damir

Vrsta, podvrsta i kategorija rada
Sažeci sa skupova, sažetak, znanstveni

Izvornik
Abstracts of Twentysecond International Diatom Symposium / Sabbe Koen, Van de Vijver Bart & Vyverman Wim - Ghent : VLIZ Special Publication 58, 2012, 135-135

Skup
Twentysecond International Diatom Symposium

Mjesto i datum
Gent, Belgija, 26.08.2012. - 31.08.2012

Vrsta sudjelovanja
Poster

Vrsta recenzije
Međunarodna recenzija

Ključne riječi
colony formation; diatoms; AFM; polysaccharides

Sažetak
Diatoms have evolved a variety of colonial life forms in which cells are connected by organic threads, mucilage pads or silicate structures. In this study, we provide the first description of a novel strategy of colony formation among marine planktonic diatoms. Bacteriastrum jadranum is a chain‐forming centric diatom in which sibling cells are enclosed within the optically transparent organic matrix instead of fusing of silica between setae as it is the case in all other members of the family Chaetocerotaceae. This cell jacket structure was detected by staining procedures (Alcian Blue and Coomassie Brilliant Blue G), which showed that the polysaccharides are predominant matrix constituents and revealed that the jacket reaches the span of the setae. The scanning electron microscopy (SEM) observations showed distinguishable fibrillar network firmly associated with cells. Using atomic force microscopy (AFM), we were able to visualise and characterise the cell jacket structure at molecular resolution. At nanoscale resolution, the cell jacket appears as a cross‐linked fibrillar network organised into a recognisable structure. It is composed of non‐evenly distributed high density domains (patches) surrounded and interconnected by thicker fibrils. Inside the patches are the hexagonally shaped pores decreasing in size from the patch edge towards the center. The large pore openings found between the patches are formed by the robust branching fibrils and these represent the backbone of the fibrillar network. Such structure is porous, but at the same time highly flexible and mechanically stable. We conclude that the Bacteriastrum polysaccharide jacket represents an essential part of the cell, as such specific and unique patterns have never been found in self‐assembled polysaccharide gel networks, which are usually encountered in the marine environment.

Izvorni jezik
Engleski

Znanstvena područja
Biologija

POVEZANOST RADA