Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases
The carnivorous marine snail Pugilina cochlidium is found predominantly on the sea shores of the South-East Asia region. This sea creature lays a string of egg capsules up to a metre in length which houses its embryos. The egg capsule material must be able to withstand and resist the harsh and re...
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sg-ntu-dr.10356-694742023-03-04T16:43:54Z Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases Loke, Jun Jie Ali Gilles Tchenguise Miserez School of Materials Science & Engineering DRNTU::Engineering::Materials The carnivorous marine snail Pugilina cochlidium is found predominantly on the sea shores of the South-East Asia region. This sea creature lays a string of egg capsules up to a metre in length which houses its embryos. The egg capsule material must be able to withstand and resist the harsh and relentless tidal forces of the ocean in order for the off-springs to develop properly and survive. The egg capsule was found to be made up of egg capsule protein precursors which domains are predominately filamentous made of coiled-coils. Four laminar protein sheets were also found to be oriented perpendicular to each other. Mechanical testing of the egg capsule had shown that the biomaterial is capable of absorbing shock, where it fully extends upon stretching and is able to recover to its original shape almost instantaneously without significant damage. Investigations of the egg capsule precursor proteins hierarchical native state were carried out using different electrophoresis techniques. This allows a relative comparison of the molecular weight of cross-linked egg capsule protein at different stages in the egg laying process, and how the egg capsule protein precursor might selfassemble prior to secretion. The proteins self-assemble into 200 kDa bundles which are further assembled into fibres with a protein cross-linker, presumably the Pugilina Bundling Protein. Pugilina cochlidium Egg Capsule Protein 1, 2 and 3 were found to be forming the 200 kDa bundles but not for Protein 4 and 5. The genetic sequence of Pugilina Bundling Protein was transformed into the E. coli recombinant system and expressed using Terrific broth to maximise its yield. Protein purification of the solubilised inclusion bodies was carried out using Reversed Phase High Performance Liquid Chromatography. Electrophoresis and Matrix Assisted Laser Desorption/Ionisation Time-of-Flight gave novel insights into the protein ability to form homo-dimers and oligomers. The purified Pugilina Bundling Protein was refolded with L-Arginine as an aggregate suppressor while cysteine/cystine redox pair aided in the proper reshuffling of disulphide bonds. The refolded protein formed dispersed aggregates when mixed with native egg capsule proteins, suggesting that it is partly responsible for the egg capsule hierarchical assembly and cross-linking. Master of Engineering 2017-01-25T03:14:27Z 2017-01-25T03:14:27Z 2017 Thesis Loke, J. J. (2017). Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases. Master’s thesis, Nanyang Technological University, Singapore. http://hdl.handle.net/10356/69474 10.32657/10356/69474 en 138 p. application/pdf |
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DRNTU::Engineering::Materials Loke, Jun Jie Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| description |
The carnivorous marine snail Pugilina cochlidium is found predominantly on the
sea shores of the South-East Asia region. This sea creature lays a string of egg capsules
up to a metre in length which houses its embryos. The egg capsule material must be able
to withstand and resist the harsh and relentless tidal forces of the ocean in order for the
off-springs to develop properly and survive.
The egg capsule was found to be made up of egg capsule protein precursors
which domains are predominately filamentous made of coiled-coils. Four laminar
protein sheets were also found to be oriented perpendicular to each other. Mechanical
testing of the egg capsule had shown that the biomaterial is capable of absorbing shock,
where it fully extends upon stretching and is able to recover to its original shape almost
instantaneously without significant damage.
Investigations of the egg capsule precursor proteins hierarchical native state
were carried out using different electrophoresis techniques. This allows a relative
comparison of the molecular weight of cross-linked egg capsule protein at different
stages in the egg laying process, and how the egg capsule protein precursor might selfassemble
prior to secretion. The proteins self-assemble into 200 kDa bundles which are
further assembled into fibres with a protein cross-linker, presumably the Pugilina
Bundling Protein. Pugilina cochlidium Egg Capsule Protein 1, 2 and 3 were found to be
forming the 200 kDa bundles but not for Protein 4 and 5.
The genetic sequence of Pugilina Bundling Protein was transformed into the
E. coli recombinant system and expressed using Terrific broth to maximise its yield.
Protein purification of the solubilised inclusion bodies was carried out using Reversed
Phase High Performance Liquid Chromatography. Electrophoresis and Matrix Assisted
Laser Desorption/Ionisation Time-of-Flight gave novel insights into the protein ability
to form homo-dimers and oligomers.
The purified Pugilina Bundling Protein was refolded with L-Arginine as an
aggregate suppressor while cysteine/cystine redox pair aided in the proper reshuffling
of disulphide bonds. The refolded protein formed dispersed aggregates when mixed with
native egg capsule proteins, suggesting that it is partly responsible for the egg capsule
hierarchical assembly and cross-linking. |
| author2 |
Ali Gilles Tchenguise Miserez |
| author_facet |
Ali Gilles Tchenguise Miserez Loke, Jun Jie |
| format |
Theses and Dissertations |
| author |
Loke, Jun Jie |
| author_sort |
Loke, Jun Jie |
| title |
Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| title_short |
Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| title_full |
Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| title_fullStr |
Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| title_full_unstemmed |
Characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| title_sort |
characterisation of a bundling protein involved in the self-assembly of bioelastomeric snail egg cases |
| publishDate |
2017 |
| url |
http://hdl.handle.net/10356/69474 |
| _version_ |
1759857384418705408 |