Calcite‐specific coupling protein in barnacle underwater cement

Mori, Youichi; Urushida, Youhei; Nakano, Masahiro; Uchiyama, Susumu; Kamino, Kei

doi:10.1111/j.1742-4658.2007.06161.x

Cited by 71 publications

(96 citation statements)

References 33 publications

(54 reference statements)

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“…Additionally, phosphoproteins are important to the development of extracellular matrices and the transition to calcification (Borbas et al, 1991;Arias et al, 1993;George et al, 1993;Fernández et al, 2002;Johnstone et al, 2015a). Barnacle baseplate and shell biomineralization involve an initial organic matrix in which calcite crystals form (Fernández et al, 2002;Mori et al, 2007;Lewis et al, 2014), with the potential for involvement of calcite-carrying hemocytes, as seen in oyster calcification (Mount et al, 2004;Zhang et al, 2013;Johnstone et al, 2015;Li et al, 2016). Estimates of barnacle hemocyte concentrations are 1.7×10 2 cells μl −1 hemolymph, mostly composed of hyaline cells and some semigranular cells (Waite and Walker, 1988;Dickinson et al, 2009).…”

Section: Discussionmentioning

confidence: 99%

Barnacle biology before, during and after settlement and metamorphosis: a study of the interface

Essock‐Burns

Gohad

Orihuela

et al. 2016

Journal of Experimental Biology

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Mobile barnacle cypris larvae settle and metamorphose, transitioning to sessile juveniles with morphology and growth similar to that of adults. Because biofilms exist on immersed surfaces on which they attach, barnacles must interact with bacteria during initial attachment and subsequent growth. The objective of this study was to characterize the developing interface of the barnacle and substratum during this key developmental transition to inform potential mechanisms that promote attachment. The interface was characterized using confocal microscopy and fluorescent dyes to identify morphological and chemical changes to the interface and the status of bacteria present as a function of barnacle developmental stage. Staining revealed patchy material containing proteins and nucleic acids, reactive oxygen species amidst developing cuticle, and changes in bacteria viability at the developing interface. We found that as barnacles metamorphose from the cyprid to juvenile stage, proteinaceous materials with the appearance of coagulated liquid were released into and remained at the interface. It stained positive for proteins, including phosphoprotein, as well as nucleic acids. Regions of the developing cuticle and the patchy material itself stained for reactive oxygen species. Bacteria were absent until the cyprid was firmly attached, but populations died as barnacle development progressed. The oxidative environment may contribute to the cytotoxicity observed for bacteria and has the potential for oxidative crosslinking of cuticle and proteinaceous materials at the interface.

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Section: Discussionmentioning

confidence: 99%

Barnacle biology before, during and after settlement and metamorphosis: a study of the interface

Essock‐Burns

Gohad

Orihuela

et al. 2016

Journal of Experimental Biology

View full text Add to dashboard Cite

show abstract

“…The protein contents of barnacle cement has been the topic of considerable research as of late (Kamino 2001;Mori et al 2007;Urushida et al 2007;Kamino 2008;Dickinson et al 2009) yet few cement proteins have been added to the database (19kDa, 20kDa, and 100kDa as well as insoluble partial peptide fractions). Although many were collected from a different, though similar species, Megabalanus rosa, we were consequently hopeful in identifying similar cement polymers on the basis that partial sequence data may be used.…”

Section: Discussionmentioning

confidence: 99%

“…Barnacle cement is primarily composed of proteins ranging from 3kDa to upwards of 160kDa with proteins between 50kDa and 100kDa being the most prominent in terms of volume (Kamino et al 1996;Naldrett and Kaplan 1997). Mori et al (2007) identified a calcium coupling protein (20kDa) only found within the primary cement of Megabalanus rosa suggesting cement-specific proteins such as this may relate to the adhesive's incredible ability to cure underwater. Changes in concentration or appearance of these proteins may affect cement tenacity.…”

Section: Ecophenotypic Response Of Cement To Temperaturementioning

confidence: 99%

“…. (Smith et al 1999;Pawlicki et al 2004;Mori et al 2007) 2.4.6 Coating/temperature interaction Substrate modulus has also shown to affect CRS of barnacles ). An experiment conducted by found the glass transition temperature (T g ) of the PDMSe used, to be as high as 18°C.…”

Section: Ecophenotypic Response Of Cement To Temperaturementioning

confidence: 99%

“…Here, liquid cement collection was employed in attempt to analyze cement protein content using 2D SDS PAGE followed by Mass Spectrometry (MALDI/TOFTOF). Only one dimensional SDS PAGE has been conducted on adhesive proteins in previous research (Kamino et al 1996;Naldrett and Kaplan 1997;Kamino et al 2000;Kamino 2001;Mori et al 2007). …”

Section: Introductionmentioning

confidence: 99%

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