Distribution of thiaminase in different tissues of some fish species
Table Of Contents
Chapter ONE
INTRODUCTION
- </strong></p><p>
- 1.1 INTRODUCTION</p><p>
- 1.2 LITERATURE REVIEW</p><p>1.
- 2.1HISTORY OF THIAMINASE</p><p>1.
- 2.2CLASSIFICATION</p><p>1.
- 2.3DISTRIBUTION AND OCCURRENCE</p><p>1.
- 2.4THIAMINASE CATALYSIS</p><p>1.
- 2.5THIAMINASE 1</p><p>1.
- 2.6THIAMINASE 11</p><p>
- 1.3 FISH TISSUES</p><p>1.
- 3.1FISH GILLS</p><p>1.
- 3.2FISH FLESH</p><p>1.
- 3.3FISH GUT</p><p>
- 1.4 FISHES</p><p>
- 1.5 FISH SPECIES</p><p>1.
- 5.1TILAPIA ZILLI</p><p>1.
- 5.2HEPSETUS ODOE</p><p>1.
- 5.3PARACHANNA OBSCURA</p><p>1.
- 5.4CLARIAS GARIEPINUS</p><p>1.
- 5.5HETEROTIS NILOTICUS</p><p>1.
- 5.6PARACHANNA AFRICANA</p><p>1.
- 5.7SAROTERODON GALILAEUS</p><p>
Chapter TWO
LITERATURE REVIEW
- </p><p>
- 2.1 MATERIALS</p><p>2.
- 1.1CHEMICALS AND REAGENTS</p><p>2.
- 1.2EQUIPMENTS</p><p>
- 2.2 METHODS</p><p>2.
- 2.1PREPARATION OF BUFFER (PHOSPHATE BUFFE</p><p>2.
- 2.2HOMOGENIZATION OF SAMPLES (GILLS, GUT AND</p><p>FLESH)</p><p>2.
- 2.3FILTRATION USING CHEESE CLOTH</p><p>2.
- 2.4CENTRIFUGATION OF THE SUPERNATANT EXTRACT</p><p>2.
- 2.5PROTEIN DETERMINATION</p><p>2.
- 2.6THIAMINASE ASSAY</p><p>
Chapter THREE
RESEARCH METHODOLOGY
- </p><p>
- 3.1 RESULTS</p><p>3.
- 1.1THIAMINASE ACTIVITY TABLE</p><p>
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- </p><p>
- 4.1 DISCUSSION CONCLUSION AND RECOMMENDATION</p><p>4.
- 1.1DISCUSSION</p><p>4.
- 1.2CONCLUSION</p><p>4.
- 1.3RECOMMENDATION</p><p>REFERENCES.</p> <br><p></p>
Project Abstract
<p> </p><p>Thiaminase degrade thiamine into separate thiazole and pyrimidine moieties, an enzyme that cleaves vitamin B1 and are sporadically distributed among prokaryotes and eukaryotes. The excess thiaminase in fish tissues causes thiamine deficiency syndrome like neurological and cardiac disorder, it also causes reproductive disorder in fishes and finally leads to death. Thiaminase in human causes thiamine deficiency which leads to beriberi and Wernicke Korsakov syndrome or Wernicke paralysis, it also prevent the conversion of carbohydrate to glucose. Fishes rich in thiaminase are not good for human consumption because it leads to chronic thiamine deficiency.</p><p>This present study was carried out to determine the distribution, level and the effect of thiaminase in different tissues of some fish species. A total number of 21 tissues were extracted from 7 different fish species (Gills, gut and flesh i.e. 3 from each). In the tissue, <em>Tilapia Zilli</em> gut had the highest thiaminase activity (27.05±2.08) while <em>Parachanna Africana</em> gill had the lowest activity (0.09±0.12). <em>Tilapia Zilli</em> gut also have the highest specific activity (0.0058±0.0004) <em>Parachanna Africana</em> gill has the lowest specific activity (0.0000±0.0000). <em>Clarias Gariepinus </em>flesh has the highest protein concentration (14387.44±179.13) <em>Hepsetus Odoe </em>gut has the lowest protein concentration (791.28±13.33). <em>Saroterodon Galilaeus</em> species has the highest level of thiaminase activity (10.136ª) and <em>Parachanna Obscura</em> species has the lowest level of thiaminase activity (0.463áµ). <em>Tilapia Zilli</em> species has the highest specific activity of (0.0023ª) while <em>Parachanna Africanna</em> species has the lowest specific activity of (0.0002á¶).</p><p>Gut has the highest thiaminase activity of (11.315ª) while flesh has the lowest thiaminase activity of (1.916áµ). Gut also has the highest specific activity of (0.00304ª) and flesh also has the lowest specific activity of (0.00022áµ). Therefore, the significance of the study is that excess thiaminase degrades thiamin and causes thiamin deficiency in fishes which leads to various ailments in fish and finally leads to death.</p> <br><p></p>
Project Overview