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Medical Physiology
Essentials of
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 Essentials of
Medical Physiology
Sixth Edition

K Sembulingam PhD
and
Prema Sembulingam PhD
Madha Medical College & Research Institute
Kundrathur Main Road, Kovur, Thandalam (Near Porur)
Chennai, Tamil Nadu, India
Formerly

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MR Medical College
Gulbarga, Karnataka, India
Sri Ramachandra Medical College and Research Institute
Chennai, Tamil Nadu, India
School of Health Sciences, Universiti Sains Malaysia
Kelantan, Malaysia
Sri Lakshmi Narayana Institute of Medical Sciences
Puducherry, India
Sri Manakula Vinayagar Medical College and Hospital
Puducherry, India
and
Shri Sathya Sai Medical College and Research Institute
Kanchipuram, Tamil Nadu, India

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Essentials of Medical Physiology

First Edition: 1999
Second Edition: 2000
Third Edition: 2004
Fourth Edition: 2006
Fifth Edition: 2010
Sixth Edition: 2012

ISBN 978-93-5025-936-8

Printed at
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Our beloved students
Dedicated to
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 Foreword to the Sixth Edition
Madha Medical college & ReseaRch institute
Approved by Medical Council of India, New Delhi,
Affiliated to Tamil Nadu Dr. M.G.R. Medical University, Chennai, Proc. No. AffIn. III (3)/4206/2010

Thandalam, Kovur (Near Porur), Chennai-600 122. Phone : 044 - 2478 0333, 2478 0055
E-mail: [email protected]

Dr S MaDaN KuMar MD, Dip. A & E
Director

It is my privilege and pleasure to give this foreword to sixth edition of the textbook Essentials of Medical Physiology

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written by two of our dedicated and renowned teachers Dr K Sembulingam and Dr Prema Sembulingam. Since
the publication of first edition in the year 1999, this book has been accepted by the faculty of many universities in
and out of country. It has become popular among medical, dental and paramedical students because of its elegant
presentation, simple language and clear illustrations with diagrams, flow charts and tables.
The authors have taken concerted efforts to improve the contents and update the information in every subsequent
edition of this book. This sixth edition with newly formatted and updated tables, flow charts and self-explanatory
diagrams will help the students in better understanding and performance in various types of examinations. Clinical
physiology with updated information in this edition will help the students for their clinical knowledge to a great extent.
I congratulate Dr K Sembulingam and Dr Prema Sembulingam on their great effort in bringing sixth edition of this
book.

Dr S Madan Kumar MD, Dip. A & E
Director
Madha Medical College & Research Institute
Thandalam, Kovur (Near Porur)
Chennai, Tamil Nadu, India
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 Foreword to the First Edition

sRi RaMachandRa Medical college and ReseaRch institute
(deeMed univeRsity)
1, RAMAChANDRA NAGAR, PoRUR, ChENNAI-600 116

Dr TK ParTha SaraThy FRCs (C) FACs  off : 4828027-29, 31-33
Diplomate of the American Board of surgery Fax : 091-44-48277008
vICE-ChANCElloR
Telex : 41-25050 PCo IN

It is indeed with a great sense of pleasure and privilege that I give this foreword to the book Essentials of Medical
Physiology written by two of our dedicated teachers Dr K Sembulingam and Dr Prema Sembulingam. The students

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have always appreciated the efforts of these two teachers and their ability to make physiology easily comprehended
and interesting. Why one more book in physiology, is what I asked myself first before I reviewed the book. The book
has been largely directed to the broad and specific needs of the undergraduate students, and simplicity and clarity
have been emphasized. The students can easily assimilate the logical sequence in which the subjects have been
presented not only for them to understand the same but also perform well in the various types of objective and
routine examinations.
Several readily understandable diagrams and tables have been included to make subject comprehension and
revision easy. Applied physiology, clinical importance and altered situations in pediatrics, geriatrics and pregnancy
have been well brought out. The approach utilized in dealing with the subject of physiology would be appreciated
by other teachers as well. I have no doubts that this will be a valuable addition to the armamentarium of a student
of physiology who is preparing for examination and is seeking a strong foundation to build further on.
Here at Sri Ramachandra Medical College and Research Institute (Deemed University), Chennai, Tamil Nadu, India,
the faculty involved in writing and editing books of this nature are greatly appreciated, and I as its Vice-Chancellor
wish to congratulate the Sembulingams on their great effort.

TK Partha Sarathy FRCS (C) FACS
Diplomate of the American Board of Surgery
Vice-Chancellor
Sri Ramachandra Medical College and Research
Institute (Deemed University)
Porur, Chennai, Tamil Nadu, India
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 Preface to the Sixth Edition

With this Sixth edition, Sembulingam’s Essentials of Medical Physiology enters into its second decade and the core
subject matter with updated physiological information remain as green as ever. We live in an era where the thirst
for knowledge and urge for learning is so much increased that even a layman knows the fundamentals of common
disorders like diabetes mellitus, hypertension, jaundice, etc. So, it becomes doubly important to fulfill the expectations
of the educated mass, especially in medical field.
We are humbly thankful and heavenly happy for the popularity of this book among the undergraduate and
postgraduate students of medical, dental and paramedical courses, doctors and other health professionals in and
out of our country.
Like many other successful textbooks, this book also has sailed through the years smoothly, fruitfully and
successfully. May be because, it meets the needs of every group of the readers. Students are happy because it is
student-friendly while reading, and exam-friendly while revising. Knowledge seekers are happy because they get
the updated and recent developments in the field of physiology. Doctors are happy because applied aspects are
covered adequately.
Our thirst for improving this textbook is growing every year by seeing outright acceptance of this book by the
students, and the appreciation and overwhelming support given by our fellow teachers. The most comments and
the suggestions, we receive from our readers, are responsible for better shaping of this book in every edition.

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This edition is enriched with addition of many more flow charts, tables and descriptive diagrams to make the
subject matter easier and approachable for all class of students. Many chapters are upgraded as per the suggestions
from our colleagues and fellow teachers from various institutes and universities in and out of India.
Our thirst for improving this book is still alive. The improvement is possible only by the comments and suggestions
expressed by the readers. So, we welcome the opinions, comments and valuable suggestions from one and all who
happen to come across this book.

K Sembulingam
[email protected]

Prema Sembulingam
[email protected]
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 Preface to the First Edition

The need for having a simple book with basic principles of Medical Physiology has been felt since long. A sincere and
maiden attempt has been made with the idea of fulfilling the requirements of present-day curriculum. The script of
the book is formatted in such a way that it will be suitable not only for medical students, but also for dental students
and the students of allied health subjects like Physiotherapy, Occupational Therapy, Pharmacy, Nursing, Speech,
Hearing and Language, etc.
Written in a textbook form, this book encompasses the knowledge of basic principles of physiology in each system.
An attempt is also made to describe the applied physiology in each system.
To give an idea of the matters to be studied, the topics are listed at the beginning of each chapter. Most of the
figures are given in schematic form to enable students to understand and reproduce the facts. The probable questions
given for each section will help the students preparing for examinations. However, it will be ideal for the students to
read each section thoroughly before referring to the questions.
We will be very happy to receive opinions, comments and valuable suggestions from all our senior colleagues,
fellow teachers and students so that, every aspect of the book can be reviewed in succeeding editions.

K Sembulingam

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Prema Sembulingam
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 Acknowledgments

We express our profound gratitude to Late Mr NPV Ramasamy Udayar, Founder Chancellor, Sri Ramachandra
Medical College and Research Institute (Deemed University), Chennai, Tamil Nadu, India for his keen interest in all
the academic activities of the faculty members.
We would like to express our sincere gratitude to Sri VR Venkatachalam, the Chancellor of Sri Ramachandra
Medical College and Research Institute (Deemed University) for accepting to grace the occasion of ‘Book Releasing
Ceremony’ of Essentials of Medical Physiology—first edition and for releasing the book. We are very much thankful
to the former Vice-Chancellor of this University Dr TK Partha Sarathy, who honored us by attending the function and
received the first copy of the book. We are also overwhelmed by his magnanimity for his encouragement and for
going through the entire script before giving the foreword.
We sincerely thank Mrs Radha Venkatachalam, Registrar and Administrative Director, Sri Ramachandra Medical
College and Research Institute (Deemed University), who always encouraged the faculty of the university for
publications.
We thank Dr Sylvia Walter, Professor Emeritus, Department of Physiology, Sri Ramachandra Medical College
and Research Institute (Deemed University), who is the inspiration for us to bring out this book. We are also indebted
to her for giving many valuable clues to modify the script in many chapters. Our special thanks to Dr V Srinivasan,
Former Professor and Head, Department of Physiology, Sri Ramachandra Medical College and Research Institute

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(Deemed University) for his strong belief in this project, constant encouragement and valuable suggestions. We are
very much grateful to Dr V Srinivasan for his keen interest and valuable suggestions for upgrading the script in each
edition.
We thank all our fellow teachers and senior professors from various institutes and universities in and out of India
for their comments and suggestions, which enabled us to bring out each edition of the book successfully.
We are deeply indebted to our students of Sri Ramachandra Medical College and Research Institute (Deemed
University), Chennai, Tamil Nadu, India and MR Medical College, Gulbarga, Karnataka, India who were the spirit
behind the idea of bringing out this book.
Our special thanks to Dr M Chandrasekar, Vice-Principal and Head, Department of Physiology, Meenakshi Medical
College, Kanchipuram, Tamil Nadu, India for writing a review article on this book in the Journal ‘Biomedicine’
(Vol 20, No. 1). Many valuable suggestions from him enabled us to upgrade the book in each edition.
We are grateful to Professor Mafauzy Mohamad, Director, Health Campus, Universiti Sains Malaysia, Kelantan,
Malaysia for providing the photos of endocrine disorder patients. We are thankful to Dr Nivaldo Medeiros, Former
Director of Hematology and Cytology Services, Central Laboratory, University of Säo Paulo, School of Medicine,
USA for giving us the hematology pictures.
Our profound thanks are due to Dr S Peter, Founder and Chairman, Madha Group of Academic Institutions for
the recognition, appreciation and encouragement given to us in bringing out this edition. We are thankful to
Dr S Madan Kumar, Director, Madha Medical College & Research Institute for his keen interest in publishing this
edition. We also thank him for accepting and rendering foreword for this edition. We thank Dr K Gajendran, Principal,
Madha Medical College & Research Institute for his constant encouragement in bringing out this edition.
We are thankful to Shri Jitendar P Vij (CEO), Mr Tarun Duneja (Director-Publishing) and Mr KK Raman (Production
Manager) of M/s Jaypee Brothers Medical Publishers (P) Ltd, New Delhi, India for publishing the book in the same
format as we wanted. We thank Ms Chetna Malhotra Vohra (Senior Business Executive Manager) for coordinating
the processing of this edition. We thank Ms Sajini SV (Project Leader), Ms Hemalata Malini B and Mr Samiulla (DTP
Operators); Ms Nandini N, Ms Ramya VR, Ms Bhavya M, and Ms Nikita G (Proofreaders) of Bengaluru Production
Unit, M/s Jaypee Brothers Medical Publishers (P) Ltd, Bengaluru Branch, for their wholehearted contribution while
formatting the book. We also thank Ms Shilpa K Bhat (Graphic Designer), of Bengaluru Production Unit for making
the figures attractive.
 Special Acknowledgments

We sincerely acknowledge the following fellow teachers for their valuable suggestions. All the points suggested by
them were acknowledged and incorporated in this edition.

1. Dr M Chandrasekar 6. Dr S Manikandan
Vice Principal and Head Associate Professor
Department of Physiology Department of Physiology
Meenakshi Medical College Tagore Medical College
Kanchipuram, Tamil Nadu, India Chennai, Tamil Nadu, India
2. Dr P Sai Kumar 7. Dr NV Mishra
Vice Principal and Professor Associate Professor
Department of Physiology Department of Physiology
Sri Balaji Medical College and Hospital Medical College
Chennai, Tamil Nadu, India Nagpur (MS), Maharashtra, India
3. Dr B Vishwanatha Rao 8. Dr KS Udayashankar
Professor Professor and Head

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Department of Physiology Department of Physiology
Madras Medical College Sri Rajarajeshwari Medical College and Hospital
Chennai, Tamil Nadu, India Bengaluru, Karnataka, India
4. Dr K Sarayu 9. Dr MG Hymavthi
Professor and Head Professor
Department of Physiology Department of Physiology
KAT Viswanathan Government Medical College Sri Rajarajeshwari Medical College and Hospital
Trichy, Tamil Nadu, India Bengaluru, Karnataka, India
5. Dr D Venkatesh
Professor
Department of Physiology
MS Ramaiah Medical College
Bengaluru, Karnataka, India
 Contents

SECTIoN 1
GENERAL PHySIoLoGy
1. Cell.....................................................................................................................................3
2. Cell Junctions.................................................................................................................22
3. Transport through Cell Membrane................................................................................27
4. Homeostasis...................................................................................................................38
5. Acid-Base Balance.........................................................................................................42

SECTIoN 2
BLooD AND BoDy FLUIDS
6. Body Fluids.....................................................................................................................51

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7. Blood...............................................................................................................................58
8. Plasma Proteins..............................................................................................................61
9. Red Blood Cells..............................................................................................................66
10. Erythropoiesis................................................................................................................71
11. Hemoglobin and Iron Metabolism.................................................................................77
12. Erythrocyte Sedimentation Rate...................................................................................83
13. Packed Cell Volume and Blood Indices........................................................................86
14. Anemia.............................................................................................................................89
15. Hemolysis and Fragility of Red Blood Cells................................................................95
16. White Blood Cells...........................................................................................................97
17. Immunity........................................................................................................................107
18. Platelets.........................................................................................................................122
19. Hemostasis...................................................................................................................127
20. Coagulation of Blood...................................................................................................129
21. Blood Groups................................................................................................................139
22. Blood Transfusion........................................................................................................146
23. Blood Volume................................................................................................................148
24. Reticuloendothelial System and Tissue Macrophage...............................................151
25. Spleen............................................................................................................................153
26. Lymphatic System and Lymph....................................................................................155
27. Tissue Fluid and Edema..............................................................................................159
xviii Essentials of Medical Physiology

SECTIoN 3
MUSCLE PHySIoLoGy
28. Classification of Muscles.............................................................................................167
29. Structure of Skeletal Muscle.......................................................................................169
30. Properties of Skeletal Muscle......................................................................................176
31. Changes during Muscular Contraction......................................................................188
32. Neuromuscular Junction.............................................................................................200
33. Smooth Muscle.............................................................................................................204
34. Electromyogram and Disorders of Skeletal Muscle..................................................210
35. Endurance of Muscle...................................................................................................214

SECTIoN 4
DIGESTIVE SySTEM
36. Introduction to Digestive System...............................................................................219
37. Mouth and Salivary Glands.........................................................................................223
38. Stomach........................................................................................................................230
39. Pancreas........................................................................................................................241

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40. Liver and Gallbladder...................................................................................................249
41. Small Intestine..............................................................................................................261
42. Large Intestine..............................................................................................................266
43. Movements of Gastrointestinal Tract.........................................................................270
44. Gastrointestinal Hormones.........................................................................................281
45. Digestion, Absorption and Metabolism of Carbohydrates.......................................287
46. Digestion, Absorption and Metabolism of Proteins..................................................290
47. Digestion, Absorption and Metabolism of Lipids......................................................292

SECTIoN 5
RENAL PHySIoLoGy AND SKIN
48. Kidney............................................................................................................................301
49. Nephron.........................................................................................................................304
50. Juxtaglomerular Apparatus.........................................................................................309
51. Renal Circulation..........................................................................................................312
52. Urine Formation............................................................................................................315
53. Concentration of Urine.................................................................................................325
54. Acidification of Urine and Role of Kidney in Acid-Base Balance............................330
55. Renal Function Tests...................................................................................................333
56. Renal Failure.................................................................................................................337
 Contents xix

57. Micturition.....................................................................................................................339
58. Dialysis and Artificial Kidney......................................................................................346
59. Diuretics........................................................................................................................348
60. Structure of Skin...........................................................................................................351
61. Functions of Skin.........................................................................................................354
62. Glands of Skin..............................................................................................................356
63. Body Temperature........................................................................................................359

SECTIoN 6
ENDoCRINoLoGy
64. Introduction to Endocrinology....................................................................................367
65. Hormones......................................................................................................................371
66. Pituitary Gland..............................................................................................................375
67. Thyroid Gland...............................................................................................................388
68. Parathyroid Glands and Physiology of Bone............................................................399
69. Endocrine Functions of Pancreas..............................................................................415
70. Adrenal Cortex..............................................................................................................425
71. Adrenal Medulla............................................................................................................439

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72. Endocrine Functions of other organs.......................................................................444
73. Local Hormones...........................................................................................................447

SECTIoN 7
REPRoDUCTIVE SySTEM
74. Male Reproductive System..........................................................................................455
75. Seminal Vesicles...........................................................................................................467
76. Prostate Gland..............................................................................................................468
77. Semen............................................................................................................................470
78. Female Reproductive System.....................................................................................473
79. ovary.............................................................................................................................476
80. Menstrual Cycle............................................................................................................482
81. ovulation.......................................................................................................................492
82. Menopause....................................................................................................................494
83. Infertility.......................................................................................................................496
84. Pregnancy and Parturition...........................................................................................498
85. Placenta.........................................................................................................................505
86. Pregnancy Tests...........................................................................................................508
87. Mammary Glands and Lactation.................................................................................510
88. Fertility Control.............................................................................................................513
xx Essentials of Medical Physiology

SECTIoN 8
CARDIoVASCULAR SySTEM
89. Introduction to Cardiovascular System.....................................................................519
90. Properties of Cardiac Muscle......................................................................................525
91. Cardiac Cycle................................................................................................................533
92. Heart Sounds................................................................................................................544
93. Cardiac Murmur............................................................................................................549
94. Electrocardiogram (ECG).............................................................................................551
95. Vector.............................................................................................................................558
96. Arrhythmia....................................................................................................................562
97. Effect of Changes in Electrolyte Concentration on Heart........................................570
98. Cardiac output..............................................................................................................572
99. Heart-Lung Preparation...............................................................................................582
100. Cardiac Function Curves.............................................................................................584
101. Heart Rate......................................................................................................................587
102. Hemodynamics.............................................................................................................595
103. Arterial Blood Pressure...............................................................................................602

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104. Venous Pressure..........................................................................................................617
105. Capillary Pressure........................................................................................................620
106. Arterial Pulse................................................................................................................622
107. Venous Pulse................................................................................................................627
108. Coronary Circulation....................................................................................................629
109. Cerebral Circulation.....................................................................................................634
110. Splanchnic Circulation.................................................................................................638
111. Capillary Circulation.....................................................................................................640
112. Circulation through Skeletal Muscle..........................................................................644
113. Cutaneous Circulation.................................................................................................646
114. Fetal Circulation and Respiration...............................................................................648
115. Hemorrhage..................................................................................................................651
116. Circulatory Shock and Heart Failure..........................................................................654
117. Cardiovascular Adjustments during Exercise...........................................................664

SECTIoN 9
RESPIRAToRy SySTEM AND ENVIRoNMENTAL PHySIoLoGy
118. Physiological Anatomy of Respiratory Tract.............................................................673
119. Pulmonary Circulation.................................................................................................678
120. Mechanics of Respiration............................................................................................682
121. Pulmonary Function Tests...........................................................................................690
 Contents xxi

122. Ventilation.....................................................................................................................700
123. Inspired Air, Alveolar Air and Expired Air..................................................................703
124. Exchange of Respiratory Gases.................................................................................705
125. Transport of Respiratory Gases.................................................................................711
126. Regulation of Respiration............................................................................................716
127. Disturbances of Respiration........................................................................................723
128. High Altitude and Space Physiology..........................................................................737
129. Deep Sea Physiology...................................................................................................743
130. Effects of Exposure to Cold and Heat........................................................................746
131. Artificial Respiration....................................................................................................749
132. Effects of Exercise on Respiration.............................................................................751

SECTIoN 10
NERVoUS SySTEM
133. Introduction to Nervous System.................................................................................757
134. Neuron...........................................................................................................................759
135. Classification of Nerve Fibers.....................................................................................764
136. Properties of Nerve Fibers...........................................................................................766

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137. Degeneration and Regeneration of Nerve Fibers......................................................770
138. Neuroglia.......................................................................................................................773
139. Receptors......................................................................................................................775
140. Synapse.........................................................................................................................780
141. Neurotransmitters........................................................................................................787
142. Reflex Activity...............................................................................................................795
143. Spinal Cord...................................................................................................................803
144. Somatosensory System and Somatomotor System.................................................828
145. Physiology of Pain.......................................................................................................838
146. Brainstem......................................................................................................................844
147. Thalamus.......................................................................................................................847
148. Internal Capsule............................................................................................................853
149. Hypothalamus...............................................................................................................855
150. Cerebellum....................................................................................................................863
151. Basal Ganglia................................................................................................................878
152. Cerebral Cortex.............................................................................................................884
153. Limbic System..............................................................................................................898
154. Reticular Formation......................................................................................................901
155. Preparations of Animals for Experimental Studies...................................................906
156. Proprioceptors..............................................................................................................908
157. Posture and Equilibrium..............................................................................................913
158. Vestibular Apparatus....................................................................................................919
159. Electroencephalogram (EEG)......................................................................................929
160. Physiology of Sleep.....................................................................................................931
161. Epilepsy.........................................................................................................................935
162. Higher Intellectual Functions......................................................................................937
163. Cerebrospinal Fluid (CSF)...........................................................................................949
164. Autonomic Nervous System (ANS).............................................................................954

SECTIoN 11
SPECIAL SENSES
165. Structure of the Eye.....................................................................................................965
166. Visual Process..............................................................................................................978
167. Field of Vision...............................................................................................................987
168. Visual Pathway.............................................................................................................989
169. Pupillary Reflexes.........................................................................................................994
170. Color Vision..................................................................................................................999
171. Errors of Refraction....................................................................................................1004
172. Structure of Ear..........................................................................................................1007

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173. Auditory Pathway.......................................................................................................1013
174. Mechanism of Hearing...............................................................................................1016
175. Auditory Defects.........................................................................................................1022
176. Sensation of Taste......................................................................................................1024
177. Sensation of Smell.....................................................................................................1028

Index..................................................................................................................................1033
 Introduction

Physiology is the most fascinating and ancient branch of science. It is fascinating because, it unfolds the mystery of
complicated functional aspects of individual organs in the body. It is ancient because, it exists ever since the origin
of life. Even before knowing the language, culture and society, man knew about the hunger, thirst, pain and fear
which are the basics of physiology.
Physiology is defined as the study of functions of various systems and different organs of the body. Physiology
is of different types namely, Human Physiology, Animal Physiology and Plant Physiology. Human Physiology and
Animal Physiology are very much inter-related. Knowledge of Human Physiology is essential to understand the other
allied subjects like Biochemistry, Pharmacology, Pathology, Medicine, etc. However, it is worthwhile to have a brief
knowledge of anatomy of different systems and various organs to understand the principles of Human Physiology.
The basic physiological functions include, provision of oxygen and nutrients, removal of metabolites and other
waste products, maintenance of blood pressure and body temperature, hunger and thirst, locomotor functions, special
sensory functions, reproduction and the higher intellectual functions like learning and memory.
In the unicellular organisms, all the physiological functions are carried out by simple diffusion through the cell
membrane. Because of the evolutionary and ecological changes over the years, individual system is developed for
each function such as digestive system, cardiovascular system, respiratory system, excretory system, etc. Every

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system in the body is independent structurally and functionally yet, all the systems are interdependent.
Human Physiology is usually studied under the following headings:

1. General Physiology
2. Blood and Body Fluids
3. Muscle Physiology
4. Digestive System
5. Renal Physiology and Excretion
6. Endocrinology
7. Reproductive System
8. Cardiovascular System
9. Respiratory System and Environmental Physiology
10. Nervous System
11. Special Senses
 Section

1
General Physiology

1. Cell.............................................................................................................. 3
2. Cell Junctions............................................................................................ 22
3. Transport through Cell Membrane............................................................ 27
4. Homeostasis............................................................................................. 38
5. Acid-base Balance.................................................................................... 42

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 Chapter
Cell
1
„ INTRODUCTION
„ STRUCTURE OF THE CELL
„ CELL MEMBRANE
„ CYTOPLASM
„ ORGANELLES IN CYTOPLASM
„ ORGANELLES WITH LIMITING MEMBRANE
„ ORGANELLES WITHOUT LIMITING MEMBRANE
„ NUCLEUS
„ DEOXYRIBONUCLEIC ACID
„ GENE
„ RIBONUCLEIC ACID

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„ GENE EXPRESSION
„ GROWTH FACTORS
„ CELL DEATH
„ CELL ADAPTATION
„ CELL DEGENERATION
„ CELL AGING
„ STEM CELLS

„ INTRODUCTION 5. Shows immediate response to the entry of invaders
like bacteria or toxic substances into the body
„ CELL 6. Reproduces by division. There are some exceptions
like neuron, which do not reproduce.
All the living things are composed of cells. A single cell
is the smallest unit that has all the characteristics of life.
„ TISSUE
Cell is defined as the structural and functional unit of the
living body. Tissue is defined as the group of cells having similar
function. There are many types of tissues in the body. All
General Characteristics of Cell the tissues are classified into four major types which are
called the primary tissues. The primary tissues include:
Each cell in the body: 1. Muscle tissue (skeletal muscle, smooth muscle and
1. Needs nutrition and oxygen cardiac muscle)
2. Produces its own energy necessary for its growth, 2. Nervous tissue (neurons and supporting cells)
repair and other activities 3. Epithelial tissue (squamous, columnar and cuboidal
3. Eliminates carbon dioxide and other metabolic wastes epithelial cells)
4. Maintains the medium, i.e. the environment for its 4. Connective tissue (connective tissue proper, cartil-
survival age, bone and blood).
 4 Section 1 t General Physiology

„ ORGAN „ CELL MEMBRANE
An organ is defined as the structure that is formed by Cell membrane is a protective sheath, enveloping the
two or more primary types of tissues, which execute the cell body. It is also known as plasma membrane or
functions of the organ. Some organs are composed of all plasmalemma. This membrane separates the fluid out­
the four types of primary tissues. The organs are of two side the cell called extracellular fluid (ECF) and the fluid
types, namely tubular or hollow organs and compact or inside the cell called intracellular fluid (ICF). The cell
parenchymal organs. Some of the organs in the body are membrane is a semipermeable membrane. So, there is
brain, heart, lungs, stomach, intestine, liver, gallbladder, free exchange of certain substances between ECF and
pancreas, kidneys, endocrine glands, etc. ICF. Thickness of the cell membrane varies from 75 to
111Å (Fig. 1.2).
„ SYSTEM
„ COMPOSITION OF CELL MEMBRANE
The organ system is defined as group of organs that work
together to carry out specific functions of the body. Cell membrane is composed of three types of substances:
Each system performs a specific function. Digestive 1. Proteins (55%)
system is concerned with digestion of food particles. 2. Lipids (40%)
Excretory system eliminates unwanted substances. 3. Carbohydrates (5%).
Cardiovascular system is responsible for transport of
substances between the organs. Respiratory system „ STRUCTURE OF CELL MEMBRANE
is concerned with the supply of oxygen and removal of
carbon dioxide. Reproductive system is involved in the On the basis of structure, cell membrane is called a unit
reproduction of species. Endocrine system is concerned membrane or a three-layered membrane. The electron
with growth of the body and regulation and maintenance microscopic study reveals three layers of cell membrane,
of normal life. Musculoskeletal system is responsible for namely, one central electron-lucent layer and two elec-

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stability and movements of the body. Nervous system tron-dense layers. The two electron-dense layers are
controls the locomotion and other activities including the placed one on either side of the central layer. The central
intellectual functions. layer is a lipid layer formed by lipid substances. The
other two layers are protein layers formed by proteins.
„ STRUCTURE OF THE CELL Cell membrane contains some carbohydrate molecules
Each cell is formed by a cell body and a membrane also.
covering the cell body called the cell membrane. Cell
body has two parts, namely nucleus and cytoplasm Structural Model of the Cell Membrane
surrounding the nucleus (Fig. 1.1). Thus, the structure 1. Danielli-Davson model
of the cell is studied under three headings:
1. Cell membrane ‘Danielli­Davson model’ was the first proposed basic
2. Cytoplasm model of membrane structure. It was proposed by
3. Nucleus. James F Danielli and Hugh Davson in 1935. And it was
accepted by scientists for many years. This model was
basically a ‘sandwich of lipids’ covered by proteins on
both sides.

FIGURE 1.1: Structure of the cell FIGURE 1.2: Diagram of the cell membrane
 Chapter 1 t Cell 5

2. Unit membrane model oily structures and cholesterol helps to ‘pack’ the
phospholipids in the membrane. So, cholesterol is
In 1957, JD Robertson replaced ‘Danielli­Davson model’
responsible for the structural integrity of lipid layer of the
by ‘Unit membrane model’ on the basis of electron
cell membrane.
microscopic studies.
3. Fluid mosaic model Functions of Lipid Layer in Cell Membrane
Later in 1972, SJ Singer and GL Nicholson proposed ‘The Lipid layer of the cell membrane is a semipermeable
fluid mosaic model’. According to them, the membrane membrane and allows only the fat-soluble substances
is a fluid with mosaic of proteins (mosaic means pattern to pass through it. Thus, the fat-soluble substances like
formed by arrangement of different colored pieces of oxygen, carbon dioxide and alcohol can pass through
stone, tile, glass or other such materials). This model this lipid layer. The water-soluble substances such as
is accepted by the scientists till now. In this model, the glucose, urea and electrolytes cannot pass through this
proteins are found to float in the lipid layer instead of layer.
forming the layers of the sandwich-type model.
Protein Layers of the Cell Membrane
Lipid Layers of the Cell Membrane
Protein layers of the cell membrane are electron-dense
The central lipid layer is a bilayered structure. This is layers. These layers cover the two surfaces of the
formed by a thin film of lipids. The characteristic feature central lipid layer. Protein layers give protection to the
of lipid layer is that, it is fluid in nature and not a solid central lipid layer. The protein substances present in
structure. So, the portions of the membrane move from these layers are mostly glycoproteins.
one point to another point along the surface of the cell. Protein molecules are classified into two categories:
The materials dissolved in lipid layer also move to all 1. Integral proteins or transmembrane proteins.
areas of the cell membrane. 2. Peripheral proteins or peripheral membrane
Major lipids are:

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proteins.
1. Phospholipids
2. Cholesterol. 1. Integral proteins
1. Phospholipids Integral or transmembrane proteins are the proteins that
pass through entire thickness of cell membrane from one
Phospholipids are the lipid substances containing phos- side to the other side. These proteins are tightly bound
phorus and fatty acids. Aminophospholipids, sphingo- with the cell membrane.
myelins, phosphatidylcholine, phosphatidyletholamine, Examples of integral protein:
phosphatidylglycerol, phosphatidylserine and phos- i. Cell adhesion proteins
phatidylinositol are the phospholipids present in lipid
ii. Cell junction proteins
layer of cell membrane.
iii. Some carrier (transport) proteins
Phospholipid molecules are arranged in two layers
(Fig. 1.3). Each phospholipid molecule resembles the iv. Channel proteins
headed pin in shape. The outer part of the phospholipid v. Some hormone receptors
molecule is called the head portion and the inner portion vi. Antigens
is called the tail portion. vii. Some enzymes.
Head portion is the polar end and it is soluble in
water and has strong affinity for water (hydrophilic). Tail
portion is the non-polar end. It is insoluble in water and
repelled by water (hydrophobic).
Two layers of phospholipids are arranged in such a
way that the hydrophobic tail portions meet in the center
of the membrane. Hydrophilic head portions of outer
layer face the ECF and those of the inner layer face ICF
(cytoplasm).
2. Cholesterol
Cholesterol molecules are arranged in between the
phospholipid molecules. Phospholipids are soft and FIGURE 1.3: Lipids of the cell membrane
 6 Section 1 t General Physiology

2. Peripheral proteins 3. Some carbohydrate molecules function as the
receptors for some hormones.
Peripheral proteins or peripheral membrane proteins
are the proteins which are partially embedded in the
„ FUNCTIONS OF CELL MEMBRANE
outer and inner surfaces of the cell membrane and do
not penetrate the cell membrane. Peripheral proteins 1. Protective function: Cell membrane protects the
are loosely bound with integral proteins or lipid layer of cytoplasm and the organelles present in the cyto-
cell membrane. So, these protein molecules dissociate plasm
readily from the cell membrane. 2. Selective permeability: Cell membrane acts as a
Examples of peripheral proteins: semipermeable membrane, which allows only some
i. Proteins of cytoskeleton substances to pass through it and acts as a barrier
ii. Some carrier (transport) proteins for other substances
iii. Some enzymes. 3. Absorptive function: Nutrients are absorbed into the
cell through the cell membrane
Functions of Proteins in Cell Membrane 4. Excretory function: Metabolites and other waste
products from the cell are excreted out through the
1. Integral proteins provide the structural integrity of cell membrane
the cell membrane 5. Exchange of gases: Oxygen enters the cell from the
2. Channel proteins help in the diffusion of water- blood and carbon dioxide leaves the cell and enters
soluble substances like glucose and electrolytes the blood through the cell membrane
3. Carrier or transport proteins help in the transport of 6. Maintenance of shape and size of the cell: Cell mem-
substances across the cell membrane by means of brane is responsible for the maintenance of shape
active or passive transport and size of the cell.
4. Pump: Some carrier proteins act as pumps, by
which ions are transported actively across the cell „ CYTOPLASM

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membrane
Cytoplasm of the cell is the jelly­like material formed by
5. Receptor proteins serve as the receptor sites for
80% of water. It contains a clear liquid portion called
hormones and neurotransmitters
cytosol and various particles of different shape and
6. Enzymes: Some of the protein molecules form the
size. These particles are proteins, carbohydrates, lipids
enzymes and control chemical (metabolic) reactions
or electrolytes in nature. Cytoplasm also contains many
within the cell membrane
organelles with distinct structure and function.
7. Antigens: Some proteins act as antigens and induce
Cytoplasm is made up of two zones:
the process of antibody formation
1. Ectoplasm: Peripheral part of cytoplasm, situated
8. Cell adhesion molecules or the integral proteins are just beneath the cell membrane
responsible for attachment of cells to their neighbors 2. Endoplasm: Inner part of cytoplasm, interposed
or to basal lamina. between the ectoplasm and the nucleus.
Carbohydrates of the Cell Membrane
„ ORGANELLES IN CYTOPLASM
Some of the carbohydrate molecules present in
Cytoplasmic organelles are the cellular structures
cell membrane are attached to proteins and form embedded in the cytoplasm. Organelles are considered
glycoproteins (proteoglycans). Some carbohydrate as small organs of the cell. Some organelles are bound
molecules are attached to lipids and form glycolipids. by limiting membrane and others do not have limiting
Carbohydrate molecules form a thin and loose membrane (Box 1.1). Each organelle is having a definite
covering over the entire surface of the cell membrane structure and specific functions (Table 1.1).
called glycocalyx.
„ ORGANELLES WITH LIMITING MEMBRANE
Functions of Carbohydrates in Cell Membrance
„ ENDOPLASMIC RETICULUM
1. Carbohydrate molecules are negatively charged and
do not permit the negatively charged substances to Endoplasmic reticulum is a network of tubular and
move in and out of the cell microsomal vesicular structures which are interconnect-
2. Glycocalyx from the neighboring cells helps in the ed with one another. It is covered by a limiting membrane
tight fixation of cells with one another which is formed by proteins and bilayered lipids. The lumen
 Chapter 1 t Cell 7

BOX 1.1: Cytoplasmic organelles between nucleus and cell membrane by connecting the
cell membrane with the nuclear membrane.
Organelles with limiting membrane
1. Endoplasmic reticulum Types of Endoplasmic Reticulum
2. Golgi apparatus
3. Lysosome Endoplasmic reticulum is of two types, namely rough
4. Peroxisome endoplasmic reticulum and smooth endoplasmic reti-
5. Centrosome and centrioles culum. Both the types are interconnected and continuous
6. Secretory vesicles with one another. Depending upon the activities of the
7. Mitochondria
cells, the rough endoplasmic reticulum changes to
8. Nucleus
smooth endoplasmic reticulum and vice versa.
Organelles without limiting membrane
1. Ribosomes Rough Endoplasmic Reticulum
2. Cytoskeleton
It is the endoplasmic reticulum with rough, bumpy or
of endoplasmic reticulum contains a fluid medium called bead-like appearance. Rough appearance is due to the
endoplasmic matrix. The diameter of the lumen is about attachment of granular ribosomes to its outer surface.
400 to 700Å. The endoplasmic reticulum forms the link Hence, it is also called the granular endoplasmic

TABLE 1.1: Functions of cytoplasmic organelles

Organelles Functions
Rough endoplasmic reticulum 1. Synthesis of proteins
2. Degradation of worn­out organelles
Smooth endoplasmic reticulum 1. Synthesis of lipids and steroids

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2. Role in cellular metabolism
3. Storage and metabolism of calcium
4. Catabolism and detoxification of toxic substances
Golgi apparatus 1. Processing, packaging, labeling and delivery of proteins and lipids
Lysosomes 1. Degradation of macromolecules
2. Degradation of worn­out organelles
3. Removal of excess of secretory products
4. Secretion of perforin, granzymes, melanin and serotonin
Peroxisomes 1. Breakdown of excess fatty acids
2. Detoxification of hydrogen peroxide and other metabolic products
3. Oxygen utilization
4. Acceleration of gluconeogenesis
5. Degradation of purine to uric acid
6. Role in the formation of myelin
7. Role in the formation of bile acids
Centrosome 1. Movement of chromosomes during cell division
Mitochondria 1. Production of energy
2. Synthesis of ATP
3. Initiation of apoptosis
Ribosomes 1. Synthesis of proteins
Cytoskeleton 1. Determination of shape of the cell
2. Stability of cell shape
3. Cellular movements
Nucleus 1. Control of all activities of the cell
2. Synthesis of RNA
3. Sending genetic instruction to cytoplasm for protein synthesis
4. Formation of subunits of ribosomes
5. Control of cell division
6. Storage of hereditary information in genes (DNA)
 8 Section 1 t General Physiology

reticulum (Fig. 1.4). Rough endoplasmic reticulum is
vesicular or tubular in structure.

Functions of Rough Endoplasmic Reticulum
1. Synthesis of proteins
Rough endoplasmic reticulum is concerned with the
synthesis of proteins in the cell. It is involved with the
synthesis of mainly those proteins which are secreted
from the cells such as insulin from β­cells of islets
of Langerhans in pancreas and antibodies from B
lymphocytes.
Ribosomes arrange the amino acids into small
units of proteins and transport them into the rough
endoplasmic reticulum. Here, the carbohydrates are
added to the protein units forming the glycosylated
proteins or glycoproteins, which are arranged in the FIGURE 1.4: Endoplasmic reticulum
form of reticular vesicles. These vesicles are transported
mainly to Golgi apparatus for further modification and 3. Storage and metabolism of calcium
processing. Few vesicles are transported to other cyto- Smooth endoplasmic reticulum is the major site of
plasmic organelles. storage and metabolism of calcium. In skeletal muscle
2. Degradation of worn-out organelles fibers, it releases calcium which is necessary to trigger
the muscle contraction.
Rough endoplasmic reticulum also plays an important

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role in the degradation of worn-out cytoplasmic orga- 4. Catabolism and detoxification
nelles like mitochondria. It wraps itself around the worn- Smooth endoplasmic reticulum is also concerned
out organelles and forms a vacuole which is often called with catabolism and detoxification of toxic substances
the autophagosome. Autophagosome is digested by like some drugs and carcinogens (cancer-producing
lysosomal enzymes (see below for details). substances) in the liver.

Smooth Endoplasmic Reticulum „ GOLGI APPARATUS
It is the endoplasmic reticulum with smooth appearance. Golgi apparatus or Golgi body or Golgi complex is a
It is also called agranular reticulum. It is formed by many membrane-bound organelle, involved in the processing
interconnected tubules. So, it is also called tubular of proteins. It is present in all the cells except red blood
endoplasmic reticulum. cells. It is named after the discoverer Camillo Golgi.
Usually, each cell has one Golgi apparatus. Some of the
Functions of Smooth Endoplasmic Reticulum cells may have more than one Golgi apparatus. Each
Golgi apparatus consists of 5 to 8 flattened membranous
1. Synthesis of non-protein substance sacs called the cisternae.
Smooth endoplasmic reticulum is responsible for syn- Golgi apparatus is situated near the nucleus. It has
thesis of non-protein substances such as cholesterol two ends or faces, namely cis face and trans face. The
and steroid. This type of endoplasmic reticulum is cis face is positioned near the endoplasmic reticulum.
abundant in cells that are involved in the synthesis of Reticular vesicles from endoplasmic reticulum enter
lipids, phospholipids, lipoprotein substances, steroid the Golgi apparatus through cis face. The trans face
hormones, sebum, etc. In most of the other cells, smooth is situated near the cell membrane. The processed
endoplasmic reticulum is less extensive than the rough substances make their exit from Golgi apparatus through
trans face (Fig. 1.5).
endoplasmic reticulum.
2. Role in cellular metabolism Functions of Golgi Apparatus
Outer surface of smooth endoplasmic reticulum contains Major functions of Golgi apparatus are processing,
many enzymes which are involved in various metabolic packing, labeling and delivery of proteins and other
processes of the cell. molecules like lipids to different parts of the cell.
 Chapter 1 t Cell 9

Types of Lysosomes
Lysosomes are of two types:
1. Primary lysosome, which is pinched off from Golgi
apparatus. It is inactive in spite of having hydrolytic
enzymes
2. Secondary lysosome, which is the active lysosome.
It is formed by the fusion of a primary lysosome with
phagosome or endosome (see below).

Functions of Lysosomes
Lysosomes are often called ‘garbage system’ of the cell
because of their degradation activity. About 50 different
hydrolytic enzymes, known as acid hydroxylases are
present in the lysosomes, through which lysosomes
execute their functions.
FIGURE 1.5: Golgi apparatus Important lysosomal enzymes
1. Proteases, which hydrolyze the proteins into amino
1. Processing of materials acids
Vesicles containing glycoproteins and lipids are 2. Lipases, which hydrolyze the lipids into fatty acids
transported into Golgi apparatus. Here, the glycoproteins and glycerides
and lipids are modified and processed. 3. Amylases, which hydrolyze the polysaccharides

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into glucose
2. Packaging of materials
4. Nucleases, which hydrolyze the nucleic acids into
All the processed materials are packed in the form of mononucleotides.
secretory granules, secretory vesicles and lysosomes,
which are transported either out of the cell or to another Mechanism of lysosomal function
part of the cell. Because of this, Golgi apparatus is called Lysosomal functions involve two mechanisms:
the ‘post office of the cell’. 1. Heterophagy: Digestion of extracellular materials
3. Labeling and delivery of materials engulfed by the cell via endocytosis
2. Autophagy: Digestion of intracellular materials such
Finally, the Golgi apparatus sorts out the processed and
as worn-out cytoplasmic organelles.
packed materials and labels them (such as phosphate
group), depending upon the chemical content for delivery Specific functions of lysosomes
(distribution) to their proper destinations. Hence, the
Golgi apparatus is called ‘shipping department of the 1. Degradation of macromolecules
cell’. Macromolecules are engulfed by the cell by means of
endocytosis (phagocytosis, pinocytosis or receptor-
„ LYSOSOMES mediated endocytosis: Chapter 3). The macromolecules
Lysosomes are the membrane-bound vesicular such as bacteria, engulfed by the cell via phagocytosis
organelles found throughout the cytoplasm. The lyso- are called phagosomes or vacuoles. The other
somes are formed by Golgi apparatus. The enzymes macromolecules taken inside via pinocytosis or
synthesized in rough endoplasmic reticulum are receptor-mediated endocytosis are called endosomes.
processed and packed in the form of small vesicles in The primary lysosome fuses with the phagosome or
the Golgi apparatus. Then, these vesicles are pinched endosome to form the secondary lysosome. The pH in the
off from Golgi apparatus and become the lysosomes. secondary lysosome becomes acidic and the lysosomal
Among the organelles of the cytoplasm, the enzymes are activated. The bacteria and the other
lysosomes have the thickest covering membrane. The macromolecules are digested and degraded by these
membrane is formed by a bilayered lipid material. It has enzymes. The secondary lysosome containing these
many small granules which contain hydrolytic enzymes. degraded waste products moves through cytoplasm and
 10 Section 1 t General Physiology

fuses with cell membrane. Now the waste products are ii. Degrade the toxic substances such as hydrogen
eliminated by exocytosis. peroxide and other metabolic products by means
of detoxification. A large number of peroxisomes
2. Degradation of worn-out organelles
are present in the cells of liver, which is the major
The rough endoplasmic reticulum wraps itself around organ for detoxification. Hydrogen peroxide is
the worn-out organelles like mitochondria and form formed from poisons or alcohol, which enter the
the vacuoles called autophagosomes. One primary cell. Whenever hydrogen peroxide is produced
lysosome fuses with one autophagosome to form the in the cell, the peroxisomes are ruptured and
secondary lysosome. The enzymes in the secondary the oxidative enzymes are released. These
lysosome are activated. Now, these enzymes digest the oxidases destroy hydrogen peroxide and the
contents of autophagosome. enzymes which are necessary for the production
3. Removal of excess secretory products in the cells of hydrogen peroxide
iii. Form the major site of oxygen utilization in the
Lysosomes in the cells of the secretory glands remove
cells
the excess secretory products by degrading the secretory
granules. iv. Accelerate gluconeogenesis from fats
v. Degrade purine to uric acid
4. Secretory function – secretory lysosomes vi. Participate in the formation of myelin
Recently, lysosomes having secretory function viii. Play a role in the formation of bile acids.
called secretory lysosomes are found in some of the
cells, particularly in the cells of immune system. The „ CENTROSOME AND CENTRIOLES
conventional lysosomes are modified into secretory
lysosomes by combining with secretory granules (which Centrosome is the membrane-bound cellular organelle
contain the particular secretory product of the cell). situated almost in the center of cell, close to nucleus.
It consists of two cylindrical structures called centrioles

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Examples of secretory lysosomes:
i. Lysosomes in the cytotoxic T lymphocytes and which are made up of proteins. Centrioles are responsible
natural killer (NK) cells secrete perforin and for the movement of chromosomes during cell division.
granzymes, which destroy both viral-infected
cells and tumor cells. Perforin is a pore-forming „ SECRETORY VESICLES
protein that initiates cell death. Granzymes belong Secretory vesicles are the organelles with limiting
to the family of serine proteases (enzymes that membrane and contain the secretory substances. These
dislodge the peptide bonds of the proteins) and vesicles are formed in the endoplasmic reticulum and
cause the cell death by apoptosis are processed and packed in Golgi apparatus. Secretory
ii. Secretory lysosomes of melanocytes secrete vesicles are present throughout the cytoplasm. When
melanin necessary, these vesicles are ruptured and secretory
iii. Secretory lysosomes of mast cells secrete substances are released into the cytoplasm.
serotonin, which is a vasoconstrictor substance
and inflammatory mediator. „ MITOCHONDRION

„ PEROXISOMES Mitochondrion (plural = mitochondria) is a membrane-
bound cytoplasmic organelle concerned with production
Peroxisomes or microbodies are the membrane of energy. It is a rod-shaped or oval-shaped structure
limited vesicles like the lysosomes. Unlike lysosomes, with a diameter of 0.5 to 1 μ. It is covered by a bilayered
peroxisomes are pinched off from endoplasmic reticulum membrane (Fig. 1.6). The outer membrane is smooth and
and not from the Golgi apparatus. Peroxisomes contain encloses the contents of mitochondrion. This membrane
some oxidative enzymes such as catalase, urate oxidase contains various enzymes such as acetyl-CoA synthetase
and D­amino acid oxidase. and glycerolphosphate acetyltransferase.
The inner membrane is folded in the form of shelf-like
Functions of Peroxisomes inward projections called cristae and it covers the inner
Peroxisomes: matrix space. Cristae contain many enzymes and other
i. Breakdown the fatty acids by means of a process protein molecules which are involved in respiration and
called beta­oxidation: This is the major function synthesis of adenosine triphosphate (ATP). Because of
of peroxisomes these functions, the enzymes and other protein molecules
 Chapter 1 t Cell 11

4. Other functions
Other functions of mitochondria include storage of
calcium and detoxification of ammonia in liver.

„ ORGANELLES WITHOUT
LIMITING MEMBRANE
FIGURE 1.6: Structure of mitochondrion „ RIBOSOMES
Ribosomes are the organelles without limiting mem-
in cristae are collectively known as respiratory chain or
brane. These organelles are granular and small dot-like
electron transport system.
structures with a diameter of 15 nm. Ribosomes are
Enzymes and other proteins of respiratory chain made up of 35% of proteins and 65% of ribonucleic acid
i. Succinic dehydrogenase (RNA). RNA present in ribosomes is called ribosomal
ii. Dihydronicotinamide adenine dinucleotide (NADH) RNA (rRNA). Ribosomes are concerned with protein
dehydrogenase synthesis in the cell.
iii. Cytochrome oxidase
Types of Ribosomes
iv. Cytochrome C
v. ATP synthase. Ribosomes are of two types:
Inner cavity of mitochondrion is filled with matrix which i. Ribosomes that are attached to rough endo-
contains many enzymes. Mitochondrion moves freely in plasmic reticulum
the cytoplasm of the cell. It is capable of reproducing ii. Free ribosomes that are distributed in the cyto-

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itself. Mitochondrion contains its own deoxyribonucleic plasm.
acid (DNA), which is responsible for many enzymatic
actions. In fact, mitochondrion is the only organelle other
Functions of Ribosomes
than nucleus, which has its own DNA.
Ribosomes are called ‘protein factories’ because of
Functions of Mitochondrion their role in the synthesis of proteins. Messenger RNA
1. Production of energy (mRNA) carries the genetic code for protein synthesis
from nucleus to the ribosomes. The ribosomes, in turn
Mitochondrion is called the ‘power house’ or ‘power arrange the amino acids into small units of proteins.
plant’ of the cell because it produces the energy required Ribosomes attached to rough endoplasmic reticulum
for cellular functions. The energy is produced during the are involved in the synthesis of proteins such as the
oxidation of digested food particles like proteins, carbo-
enzymatic proteins, hormonal proteins, lysosomal pro-
hydrates and lipids by the oxidative enzymes in cristae.
teins and the proteins of the cell membrane.
During the oxidative process, water and carbon dioxide
Free ribosomes are responsible for the synthesis of
are produced with release of energy. The released ener-
gy is stored in mitochondria and used later for synthesis proteins in hemoglobin, peroxisome and mitochondria.
of ATP.
„ CYTOSKELETON
2. Synthesis of ATP
Cytoskeleton is the cellular organelle present throughout
The components of respiratory chain in mitochondrion the cytoplasm. It determines the shape of the cell and gives
are responsible for the synthesis of ATP by utilizing the support to the cell. It is a complex network of structures
energy by oxidative phosphorylation. ATP molecules
with varying sizes. In addition to determining the shape of
diffuse throughout the cell from mitochondrion. Whenever
the cell, it is also essential for the cellular movements and
energy is needed for cellular activity, the ATP molecules
are broken down. the response of the cell to external stimuli.
Cytoskeleton consists of three major protein
3. Apoptosis components:
Cytochrome C and second mitochondria-derived activator 1. Microtubule
of caspases (SMAC)/diablo secreted in mitochondria are 2. Intermediate filaments
involved in apoptosis (see below). 3. Microfilaments.
 12 Section 1 t General Physiology

1. Microtubules Microfilaments are present throughout the cytoplasm.
The microfilaments present in ectoplasm contain
Microtubules are the straight, hollow and tubular
only actin molecules (Fig. 1.9) and those present in
structures of the cytoskeleton. These organelles without
the limiting membrane are arranged in different bundles. endoplasm contain both actin and myosin molecules.
Each tubule has a diameter of 20 to 30 nm. Length of Functions of microfilaments
microtubule varies and it may be 1000 times more than
the thickness. Microfilaments:
Structurally, the microtubules are formed by bundles i. Give structural strength to the cell
of globular protein called tubulin (Fig. 1.7). Tubulin has ii. Provide resistance to the cell against the pulling
two subunits, namely α­subunit and β­subunit. forces
iii. Are responsible for cellular movements like
Functions of microtubules
contraction, gliding and cytokinesis (partition of
Microtubules may function alone or join with other cytoplasm during cell division).
proteins to form more complex structures like cilia,
flagella or centrioles and perform various functions. „ NUCLEUS
Microtubules:
i. Determine the shape of the cell Nucleus is the most prominent and the largest cellular
ii. Give structural strength to the cell organelle. It has a diameter of 10 µ to 22 µ and occupies
iii. Act like conveyer belts which allow the movement about 10% of total volume of the cell.
of granules, vesicles, protein molecules and
some organelles like mitochondria to different
parts of the cell
iv. Form the spindle fibers which separate the
chromosomes during mitosis

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v. Are responsible for the movement of centrioles
and the complex cellular structures like cilia.

2. Intermediate Filaments
Intermediate filaments are the structures that form a FIGURE 1.7: Microtubule
network around the nucleus and extend to the periphery
of the cell. Diameter of each filament is about 10 nm. The
intermediate filaments are formed by rope­like polymers,
which are made up of fibrous proteins (Fig. 1.8).
Subclasses of intermediate filaments
Intermediate filaments are divided into five subclasses:
i. Keratins (in epithelial cells)
ii. Glial filaments (in astrocytes)
iii. Neurofilaments (in nerve cells)
iv. Vimentin (in many types of cells)
v. Desmin (in muscle fibers). FIGURE 1.8: Intermediate filament
Functions of intermediate filaments
Intermediate filaments help to maintain the shape of the
cell. These filaments also connect the adjacent cells
through desmosomes.

3. Microfilaments
Microfilaments are long and fine thread­like structures
with a diameter of about 3 to 6 nm. These filaments are
made up of non-tubular contractile proteins called actin
and myosin. Actin is more abundant than myosin. FIGURE 1.9: Microfilament of ectoplasm
 Chapter 1 t Cell