Aanchal Singh | Email: [email protected] · 2018. 4. 10. · Aanchal Singh |...
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Aanchal Singh | Email: [email protected] Supervisor: Dr. Simon Hinkley, The Ferrier Research Institute External Sponsor: Nick Cornwall, Starboard Bio Limited The Ferrier Research Institute, Victoria University of Wellington RESULTS Hydroxyproline colorimetric assay Collagen amino acid sequence consists of repetitive Gly-Pro-Hyp motif. Hydroxyproline is a major component of collagen and plays a key role in the stability of its structure. It is found in few other proteins so is a good collagen indicator. CONCLUSIONS References: [1] Voytik-Harbin, S., Kreger, S., Bell, B., Bailey, J. (2008). Collagen preparation and method of isolation. Patent number: US 2008/0268052 A1. Purdue Research Foundation. [2] Ran, X., Wang, L. (2014). Use of ultrasonic and pepsin treatment in tandem for collagen extraction from meat industry by-products. Journal of the Science of Food and Agriculture, 94. 585 - 590. Collagen is the main structural protein of the body and makes up to 35% of total body protein content. It exists as an insoluble macromolecule due to its triple helical structure. Type I collagen is the most abundant and comes from skin, bones and tendons. It has functions in strength, elasticity and tissue development. This makes it an attractive source in medical, cosmetic & dietary industries particularly for repair and regeneration of skin, bone and joints. Collagen is typically sourced from bovine and porcine by-products however, these animals often have disease associations as well as religious implications. There is a current search for alternative sources of collagen. Little literature exists on sheep collagen. Because lamb is a major New Zealand export, there is a potential commercial venture in the production of sheep collagen. The aim of this project was to see whether we could extract collagen from ovine skins using acidic and enzymatic methods typically carried out on porcine and bovine skins [1]. METHODS FUTURE OBJECTIVES Ø Total Amino Acid Analysis Ø SDS-PAGE (molecular weight, purity, collagen type) Ø De-fatting step in pre-treatment Ø Chemical treatment for wool removal Ø Other chemical and hybrid methods Ø Yield improvement INTRODUCTION Ø Acidic methods successfully extracted collagen in 3.5 days Ø Smaller tissue (larger SA) improves yield Ø Hair removal improves yield Ø Freeze-thawing of stored tissues damages structural integrity and quality of tissue resulting in significantly lower yield of collagen extracted Ø Enzyme Ficin improves product solubility but yield improvement require optimal conditions FT-IR spectroscopy Figure 1: FT-IR Spectral Data Chart Label Peak Identification Spectral Peak (cm -1 ) Peak association A Amide A 3300 – 3440 NH stretching vibrations B Amide B 2940 – 3100 NH stretching vibrations a Acetic Acid 1740 - 1745 From chemical extraction I Amide I 1600 – 1660 Secondary structure II Amide II 1510 - 1580 Secondary structure III Amide III 1220 – 1400 Triple helical structure Yield Observations The chemical extracted material was insoluble but could be hydrolysed and cooled into gelatinous product. Gelatine is the irreversibly hydrolysed form of collagen. This could be further hydrolysed into a soluble collagen. The acid-enzyme extracted material was already a more soluble product before hydrolysis. 11.2 5.6 24.7 12.2 4.6 0.8 2.9 0.8 0.3 0.3 Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II % yield Collagen % Yield ↑ Surface Area (SA) = ↑ % Yield. Significantly decreasing yield due to freeze-thaw which destroys the structural integrity of tissue. 18.7 7.1 8.4 2.8 3.7 1.4 2 7.8 7 Ref Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II % Hydroxyproline % Hydroxyproline content of extracted collagen PREPARATION Cut tissue into 1x1 cm pieces PRETREATMENT Blend tissue in 0.5 M Sodium Acetate Incubate 12h at 4 o C Recover tissue by filtering on 129 µm mesh EXTRACTION (x2) Blend in 0.075 M Sodium Citrate Incubate 12hr at 4 o C Filter on 129 µm mesh Add 0.5 M acetic acid to precipitate protein Centrifuge at 4 o C at 4500x rpm for 15min Collect pellet, freeze-dry Tweeze off wool
Transcript of Aanchal Singh | Email: [email protected] · 2018. 4. 10. · Aanchal Singh |...
Aanchal Singh | Email: [email protected]: Dr. Simon Hinkley, The Ferrier Research Institute
External Sponsor: Nick Cornwall, Starboard Bio LimitedThe Ferrier Research Institute, Victoria University of Wellington
RESULTS
Hydroxyproline colorimetric assay
Collagen amino acid sequence consists ofrepetitive Gly-Pro-Hyp motif. Hydroxyproline isa major component of collagen and plays a keyrole in the stability of its structure. It is found infew other proteins so is a good collagenindicator.
CONCLUSIONS
References: [1] Voytik-Harbin, S., Kreger, S., Bell, B., Bailey, J. (2008). Collagen preparation and method of isolation. Patent number: US 2008/0268052 A1. Purdue Research Foundation. [2] Ran, X., Wang, L. (2014). Use of ultrasonic and pepsin treatment in tandem for collagen extraction from meat industry by-products. Journal of the Science of Food and Agriculture, 94. 585 - 590.
Collagen is the main structural protein of the body and makes up to 35% of total body protein content. It exists as an insoluble macromolecule due to its triple helical structure. Type I collagen is the most abundant and comes from skin, bones and tendons. It has functions in strength, elasticity and tissue development. This makes it an attractive source in medical, cosmetic & dietary industries particularly for repair and regeneration of skin, bone and joints.
Collagen is typically sourced from bovine and porcine by-products however, these animals often have disease associations as well as religious implications. There is a current search for alternative sources of collagen. Little literature exists on sheep collagen. Because lamb is a major New Zealand export, there is a potential commercial venture in the production of sheep collagen. The aim of this project was to see whether we could extract collagen from ovine skins using acidic and enzymatic methods typically carried out on porcine and bovine skins [1].
METHODS
FUTURE OBJECTIVESØ Total Amino Acid Analysis Ø SDS-PAGE (molecular weight, purity,
collagen type)Ø De-fatting step in pre-treatmentØ Chemical treatment for wool removalØ Other chemical and hybrid methodsØ Yield improvement
INTRODUCTION
Ø Acidic methods successfully extracted collagen in 3.5 days
Ø Smaller tissue (larger SA) improves yieldØ Hair removal improves yieldØ Freeze-thawing of stored tissues damages
structural integrity and quality of tissue resulting in significantly lower yield of collagen extracted
Ø Enzyme Ficin improves product solubility but yield improvement require optimal conditions
FT-IR spectroscopy
Figure 1: FT-IR Spectral Data
Chart Label Peak Identification Spectral Peak (cm-1) Peak association
A Amide A 3300 – 3440 NH stretching vibrationsB Amide B 2940 – 3100 NH stretching vibrationsa Acetic Acid 1740 - 1745 From chemical extractionI Amide I 1600 – 1660 Secondary structureII Amide II 1510 - 1580 Secondary structureIII Amide III 1220 – 1400 Triple helical structure
Yield
ObservationsThe chemical extracted material was insolublebut could be hydrolysed and cooled intogelatinous product. Gelatine is the irreversiblyhydrolysed form of collagen. This could befurther hydrolysed into a soluble collagen. Theacid-enzyme extracted material was already amore soluble product before hydrolysis.
11.2
5.6
24.7
12.2
4.6 0.8 2.9 0.8 0.3 0.3
Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II
% y
ield
Collagen % Yield
↑ Surface Area (SA) = ↑ % Yield. Significantlydecreasing yield due to freeze-thaw whichdestroys the structural integrity of tissue.
18.7
7.18.4
2.83.7
1.4 2
7.87
Ref Ext I Ext II Ext I Ext II Ext I Ext II Ext I Ext II
% H
ydro
xypr
olin
e
% Hydroxyproline content of extracted collagen
PREPARATION
Cut tissue into 1x1 cm pieces
PRETREATMENT
Blend tissue in 0.5 M Sodium Acetate
Incubate 12h at 4oC
Recover tissue by filtering on 129 µm mesh
EXTRACTION (x2)
Blend in 0.075 M Sodium Citrate
Incubate 12hr at 4oC
Filter on 129 µm mesh
Add 0.5 M acetic acid to precipitate protein
Centrifuge at 4oC at 4500x rpm for 15min
Collect pellet, freeze-dry
Tweeze off wool
