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  • TITLE
  • DEDICATION
  • CERTIFICATE
  • DECLARATION
  • ACKNOWLEDGEMENT
  • CONTENTS
  • List of Tables
  • List of Plates
  • List of Figures
  • 1 Introduction
  • Natrix piscator
  • Naja naja
  • Eryx johni
  • 2 Materials and Methods
  • I Morphological Variables
  • PLATE A Natrix piscator
  • PLATE B Naja naja
  • PLATE C Eryx johni
  • II.Osteology of vertebrae and ribs
  • III.Scale morphology, arrangements and Micro-ornamentation
  • lV.Structure and disposition of locomotory muscles
  • V Locomotor performance testing and patterns of locomotion
  • VI.Histochemical studies
  • 1. Fat
  • 2. Glycogen
  • 3. Phosphorylase
  • 4. Lactate dehydrogenase (LDH)
  • 5. Phosphatases
  • 6. Succinic dehydrogenase (SDH)
  • 7. Adenosine triphosphatases (ATPases)
  • 8. Acetyl cholinestrase (AchE)
  • VII.Biochemical studies
  • 1. Estimation of total lipids
  • 2. Estimation of glycogen
  • 3. Assay of phosphorylase
  • 4. Assay of lactate dehydrogenase (LDH)
  • 5. Assay of succinic dehydrogenase (SDH)
  • 6. Assay of alkaline phosphatase
  • 7. Assay of acid phosphatase
  • 8. Assay of adenosine triphosphatase (ATPase) Activity
  • 9. Assay of acetyl cholinestrase (AchE)
  • 3 Results
  • I.Morphological variables
  • II.Osteology of vertebrae and ribs
  • Fig. 1 Showing body and tail vertebra of Natrix piscator
  • Fig. 2 Showing the body and tail vetebra of Naja naja
  • Fig. 3 Showing body and tail vertebra of Eryx john
  • III.Scale morphology, arrangements and mirco-ornamentation
  • PLATE D Photographs showing Dorsal and Ventral scale arrangements in Natrix piscator, Naja naja and Eryx johni
  • PLATE E SEM Photographs of Scales n Natrix piscator showing Micro-ornamentation
  • PLATE F SEM Photographs of Scales in Naja naja showing Micro-ornamentation
  • PLATE G SEM Photographs of Scales in Eryx johni showing micro ornamentation
  • IV.Structure and disposition of locomotory muscles
  • Fig.4 Locomotory muscles of Natrix piscator lateral view of the musculature of the middle thoracic region (Semi-diagrammatic)
  • Fig. 5 Locomotory muscles of Naja naja lateral view of the musculature of the middle thoracic region (Semi-diagrammatic)
  • Fig. 6 Locomotory muscles of Eryx johni lateral view of the musculature of the middle thoracic region (Semi-diagrammatic)
  • M. Spinalis
  • M. Semispinalis
  • M. Multifidus
  • M. Longissirnus dorsi
  • M. Interarticularities superior
  • M. Interarticularis inferior
  • M. Transversus dorsalis
  • M. Intervertebralis
  • M. Retractor costae biceps
  • M. Levator costae
  • M. Tuberculocostalis
  • M. Costovertebrocostalis
  • M. Costalis internus superior
  • M. Costalis internus inferior
  • M. Intercostalis proprius
  • M. Rectus abdominis
  • M. Transversus abdominis
  • M. Supracostadorsalis
  • M. Costocutaneous superior
  • M. Costocutaneous inferior
  • V.Locomotor Performance and Patterns of Locomotion
  • Fig. 7Different types of snake locomotory patterns
  • VI.Histochemical Studies
  • 1. Fat
  • 2. Glycogen
  • 3. Phosphorylase
  • 4. Lactate dehydrogenase (LDH)
  • 5. Phosphatases
  • 6. Succinic dehydrogenase (SDH)
  • 7. Adenosine triphosphatases (ATPases)
  • 8. Acetyl choline esterase (AchE) activity
  • PLATE I T.S of the locomotory muscles of Natrix piscator stained for Fat
  • PLATE II T.S of the iocomotory muscle of Naja naja stained for Fat
  • PLATE Ill T.S. of the locomotory muscles of Eryx johni stained for Fat
  • PLATE IV T. S. of the iocomotory muscles of Natrix piscafor stained for Glycogen
  • PLATE V T. S of the iocomotory muscles of Naja raja stained for Glycogen
  • PLATE VI T. S of the iocomotory muscles of Eryx johni stained for Glycogen
  • PLATE VII T. S of the locomotory muscles of Natrix piscafor stained for Phosphorylase
  • PLATE VIll T. S. of the locamotory muscles of Naja naja stained for phosphorylase
  • PLATE IX T. S. of the locomotory muscles of Eryx johni stained for phosphorylase
  • PLATE X T. S. of the locomotory muscles of Natrix piscator stained for SDH
  • PLATE XI T. S. of the locomotory muscles of Naja raja stained for SDH
  • PLATE XII T. S. of the locomotory muscles of Eryx johni stained for SDH
  • PLATE XIII T. S. of the locomotory muscles of Natrix piscafor stained for LDH
  • PLATE XIV T.S.of the locomotory muscles of Naja naja stained for LDH
  • PLATE XV T. S. of the locomotory muscles of Eryx johni stained for LDH
  • PLATE XVI T. S. of the locomotory muscles of Natrix piscatorsfained for Alkaline phosphatase
  • PLATE XVII T. S of the locomotory muscles of Naja naja stained for Alkaline phosphatase
  • PLATE XVIII T. S of the locomotory muscles of Eryx johni stained for Alkaline phosphatase
  • PLATE XIX T. S. of the locomotory muscles of Natrix piscator stained for Acid phosphatase
  • PLATE XX T. S of the locomotory muscles of Naja naja stained for Acid phosphatase
  • PLATE XXI T. S of the locomotory muscles of Eryx john! stained for Acid phosphatase
  • PLATE XXII T S. of the locomotory muscles of Natrix piscator stained for Alkaline ATPase
  • PLATE XXIII T. S of the locomotory muscles of Naja naja stained for Alkaline ATPase
  • PLATE XXIV T S. of the locomotory muscles of E ryx johni stained for Alkaline ATPase
  • PLATE XXV T. S, of the locomotory muscles of Natrix piscator stained for Acid ATPase
  • PLATE XXVI T. S. of the locomotory muscles of Naja naja stained for Acid ATPase
  • PLATE XXVII T. S. of the locomotory muscles of Eryx johnistained for Acid ATPase
  • PLATE XXVIII T. S. of the locomotory muscles of Natrix piscator, Naja naja and Eryx johni stained for AchE activity
  • VII.Biochemical Studies
  • 1. Lipid
  • 2. Glycogen
  • 3. Phosphorylase
  • 4. Lactate dehyrogenase (LDH)
  • 5. Succinic dehydrogenase (SDH)
  • 6. Alkaline phosphatase
  • 7. Acid phosphatase
  • 8. Adenosine triphosphatase (ATPase)
  • 9. Acetyl cholinesterase (AchE)
  • Table 1. Morphological variables of Eryx johni, Matrix piscator and Naja naja
  • Table 1a. Anova of Table 1
  • Table 2. Skin thickness of Eryx johni, Matrix piscator and Naja naja (in mm)
  • Table 2a. Anova Table2
  • Table 3. Dimensions of scales in Eryx johni, Matrix piscator and Naja naja (in mm)
  • Table 3a. Anova Table 3
  • Table 4. Osteologocal characters of Eryx johni, Matrix piscator and Naja naja (in mm)
  • Table 4a. Anovao Table 4
  • Table 5. Muscle length in cm (ML) and Snout Vent Length KSVL percentage of Eryx johni, Matrix piscator and Naja naja (in mm)
  • Table 5a. Anovo of Table 5
  • Table 6 Locomotor performance of Eryx johni, Matrix piscator and Naja naja
  • Table 6a. Anovo of Table 6
  • Table 7. Percentage distribution of Fat in the locomotory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 7a. Anova of Table 7
  • Table 8. Percentage distribution of Gycogen in the locomotory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 8a. Anova of Table 8
  • Table 9. Percentage distribution of Phosphorylase in the locomotory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 9a Anova of Table 8
  • Table 10. Percentage distribution of LDH in the ocomatory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 10a Anova of Table 1O
  • Table 11. Percentage dstribudon of Alkaline phosphatase in the locomotory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 11a. Anova of Table 11
  • Table 12. Percentage distribution of Acid phospbatase in the locomotorymuscles 0f Eryx johni, Matrix piscator and Naja naja
  • Table 12a. Anova of Table 12
  • Table 13. Percentage distribution of Alkaline ATPase in the locomotory muscles of Eryx johni, Matrix piscator and Naja naja
  • Table 13a Anova nf Table 13
  • Table 14. Percentage distribution of Acid ATPase in the locomotory muscles of Eryx john, Natrix piscator and Naja naja
  • Table 14a. Anova of Table 14
  • Table 15. AchE activity in his tochemically stained muscles of Eryx johni, Natrix piscator and Naja naja
  • Table 16. Percentage distribution of fibre types in the locomotory muscles of Eryx johni
  • Table 17. Percentage distribution of fibre types in the locomotory muscles of Natrix piscafor
  • Table 18. Percentage distribution of fibre types in the locomotory muscles of Naja Naja
  • Table 19. Fibre diameter (in (?m) of the locomotory muscles of Eyrx johni
  • Table 20. Fibre diameter (in (?m.) of the locomotory muscles of Natrix piscafor
  • Table 21. Fibre diameter (in (.? m) of the locometoy muscles of Naja naja
  • Table 22. Lipid concentration in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in mg/mg wet wt.)
  • Table 22a. Anova of Table 22
  • Table 23. Glycogen concentration in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in µg /.100 mg wet wt.)
  • Table 23a. Anova of fable 23
  • Table 24. Phosphorylase activity in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in mg / mg wet wt.)
  • Table 24a. Anova of Table 24
  • Table 25. LDH activity in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in IU / g wet wt.)
  • Table 25a. Anova of Table 25
  • Table 26. SDH activity in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in formazan formed / mg wet wt.)
  • Table 26a. Anova of Table 26
  • Table 27. Alkaline phosphatase activity in the locomotory muscles of Eryx johni, Natrix piscator and Naja naja (in KA units / 100 g wet wt.)
  • Table 27a. Anova of Table 27
  • Table 28. Acid phosphatase activity in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in IU / 100 g wet wt)
  • Table 28a. Anova of Table 28
  • Table 29. ATPase activity in the locomotory muscles of Eryx johni, Natrix piscafor and Naja naja (in formed /mg wet wt.)
  • Table 29a. Anova of Table 29
  • Table 30. Cholinesterase activity in the locomotory muscles of Eryx johni, Natrix piscator and Naja naja (in moles substrate hydrolysed / minimum g wet wt.)
  • Table 30a. Anova of Table 30
  • 4 Discussion
  • Morphological variables and osteological characters
  • Scale morphology, arrangements and micro ornamentaion
  • Structure and disposition of locomotory muscles
  • Locomotor performance and patterns of movement
  • Histochemical and biochemical studies on the metabolites and some related enzymes.
  • 5 Summary and Conclusion
  • BIBILIOGRAPHY