Cotton Fiber Cell Walls of Gossypium hirsutum and Gossypium barbadense Have Differences Related to Loosely-Bound Xyloglucan

Utku Avci,Virginia L. Brown,Sivakumar Pattathil,Bir Singh,Candace H. Haigler,Michael G. Hahn,Jinfa Zhang

doi:10.1371/journal.pone.0056315

Utku Avci, Virginia L. Brown + Show 5 more

Open Access

https://doi.org/10.1371/journal.pone.0056315

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Journal: PloS one	Publication Date: Feb 14, 2013
Citations: 84	License type: CC BY 4.0

Affiliation: University of Georgia, North Carolina State University

Abstract

Cotton fiber is an important natural textile fiber due to its exceptional length and thickness. These properties arise largely through primary and secondary cell wall synthesis. The cotton fiber of commerce is a cellulosic secondary wall surrounded by a thin cuticulated primary wall, but there were only sparse details available about the polysaccharides in the fiber cell wall of any cotton species. In addition, Gossypium hirsutum (Gh) fiber was known to have an adhesive cotton fiber middle lamella (CFML) that joins adjacent fibers into tissue-like bundles, but it was unknown whether a CFML existed in other commercially important cotton fibers. We compared the cell wall chemistry over the time course of fiber development in Gh and Gossypium barbadense (Gb), the two most important commercial cotton species, when plants were grown in parallel in a highly controlled greenhouse. Under these growing conditions, the rate of early fiber elongation and the time of onset of secondary wall deposition were similar in fibers of the two species, but as expected the Gb fiber had a prolonged elongation period and developed higher quality compared to Gh fiber. The Gb fibers had a CFML, but it was not directly required for fiber elongation because Gb fiber continued to elongate rapidly after CFML hydrolysis. For both species, fiber at seven ages was extracted with four increasingly strong solvents, followed by analysis of cell wall matrix polysaccharide epitopes using antibody-based Glycome Profiling. Together with immunohistochemistry of fiber cross-sections, the data show that the CFML of Gb fiber contained lower levels of xyloglucan compared to Gh fiber. Xyloglucan endo-hydrolase activity was also higher in Gb fiber. In general, the data provide a rich picture of the similarities and differences in the cell wall structure of the two most important commercial cotton species.

Highlights

Cotton fiber harvested from Gossypium species is the world’s most important renewable textile fiber
Automated fiber quality measurements were performed by Cotton Incorporated, Cary, NC using high volume instrumentation (HVI) and Advanced Fiber Information System (AFIS) analysis according to standard methods
The genes used as markers for fiber developmental stages included: (a) cellulose synthase genes (CESAs) that are apparently orthologous to the three CESA genes in Arabidopsis thaliana (AtCESA4, AtCESA7, AtCESA8) that are required for secondary wall thickening [32]; and (b) an expansin gene, representing a family of cell wall loosening proteins required for primary wall expansion [33]

Summary

Introduction

Cotton fiber harvested from Gossypium species is the world’s most important renewable textile fiber. These single-celled fibers are highly elongated and thickened seed epidermal cells, and their useful properties depend on cell walls deposited during a staged cellular differentiation program lasting about seven weeks. The transition stage ends when secondary wall thickening begins via the deposition of nearly pure cellulose (an unusual feature of cotton fibers). The cotton fiber is composed of a thick cellulosic secondary wall that is surrounded by a ,200 nm thick cuticulated primary wall on the fiber perimeter [1,2,3,4]

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