- Email: [email protected]
Cell power
ties were available. some serious
There are, however,
limitations
and problems
interactive
learning
technology;
however, a number
using
lems
First,
there
are numerous
grammatical errors the text files in the windows.
In some cases,
the grammatical
are serious enough comprehensible. problem
is
for instructors
to use this module Second,
the advantage
are extremely
of a color screen.
had to use black
lustrations
tool.
problem
for
though
the animations still become
If in-
some
confusion
inade-
quate. There are more sophisticated
an-
version were different and
from those listed on the help screen. The were
would be completely
and/or bored. Fitools on the screen
from those listed in the instructions
tools
the il-
althat
are very slow, they may
nally, the navigation
chemical
the SE30),
because,
may understand
frustrated
of the Macintosh
was frozen
This will be a
instructors
students
ver-
and white
slow. In some
to continue.
had
and, therefore,
(for example,
a
who would like
I reviewed the Macintosh
sion on a PowerMac structors
obviously
as a teaching
the illustrations
simplistic.
errors
to make the text inThis
the A.D.A.M. physiol-
cases, I thought the program and unable
on
technol-
Third, many of the anima-
tions are extraordinarily
of prob-
and
throughout
screens
ogy modules.
computer
currently
that use CD-ROM
ogy, for example,
The goal of this module is to promote
spelling
in other modules
the market
with this module.
exist.
imations
used. Overall,
index is absent, not
and two other
described.
This
when
module
the module
the
adds
has benefits
module preview before making a purchase. This module could be used to supplement coverage of the endocrine system in a basic physiology course, or possibly in an upper-level endocrinology course, but the use at the upper level would be more limited because of the simplistic nature of the illustrations and animations. Given that CD-ROM technology, with more sophisticated animations, is now available, potential users may want to consider all of their options carefully. I recommend that instructors obtain and review the free demonstration disc of this OPAL module in order to compare this module with other interactive technology currently available.
is
Phyllis Callahan
as
Department of Zoology Miami University Oxford, OH 45056, USA
well as limitations, and I would strongly recommend that instructors obtain the
PI1 S1043-2760(96)00112-9
Cell Power Bioenergetics at a Glance: An Illustrated Introduction By David A. Harris. Oxford, Blackwell, 1995, $24.95 (II 6 pages), ISBN 0-63202388-0. A recent review by K.-D. Gerbitz, K. Gempel, and D. Brdiczka (Diabetes 45: 113-l 26) entitled “Mitochondria and Diabetes: Genetic, Biochemical, and Clinical Implications of the Cellular Energy Circuit,” sent me back to my old textbooks of biochemistry to revive dim memories of the Krebs cycle and oxidative phosphorylation. I realized that the texts were probably out of date and, consequently, welcomed the opportunity to review this little book. Textbooks of biochemistry have gained weight in recent years as knowledge has exploded. As a result, some publishers have divided the material in the obese books into slim volumes with restricted topics. I have already reviewed Metabolism at a Glance, written by J.G. Salway and published by Blackwell. Not only are these books easier to can-y, but they allow the authors more freedom to
TEM Vol. 7, No. 6, 1996
innovate because they do not have to conform to the style of the entire large book. Bioenergetics is not an easy subject. David Harris, who is at the Department of Biochemistry at Oxford University, has designed a visually pleasing short course that doles out the subject in small doses. Although the illustrations lack color, they are numerous, large, and clear. In the text, key words are printed in boldface for emphasis and ease of recognition. The book begins with a short essay on why cells require energy, with a preliminary dip into the formidable subject of thermodynamics. The physical chemistry of energetics is developed in Chapters 2 through 6 with enough mathematics to turn off generations of medical students. With a bit of patience, however, even a practicing endocrinologist out of medical school for 20 years can understand
the concepts.
Chapter 7 returns the reader to the more familiar topic of ATP and ion gradients. Subsequent chapters relate to molecular oxygen and its dangerous radicals. The mitochondrial electron transport
01996,
Elsevier Science Inc., 1043-2760/96/$15.00
chain is carefully explained and related to similar mechanisms that exist in the photosynthetic apparatus in plants and some bacteria. ATP synthesis in mitochondria is examined in detail and is related to events that occur in the cytoplasm of the cell. This section, in particular, is pertinent to an understanding of the review cited earlier on mitochondria and diabetes. The importance of proton (hydrogen ion) gradients is discussed and made clear, as is the topic of other ion pumps. In spite of the clear illustrations and the efforts of the author, this book is not an easy read. The complexity of the sub ject must take the blame for the need to work hard at understanding it. If there is a need to understand the formation and utilization of energy in a cell, however, Harris’s book is a good place to start.
Murray Saffran Department
of Biochemistry and Molecular Biology Medical College of Ohio Toledo Ohio 43699-0008, USA PI1 S1043-2760(96)00111-7
221
There are, however,
limitations
and problems
interactive
learning
technology;
however, a number
using
lems
First,
there
are numerous
grammatical errors the text files in the windows.
In some cases,
the grammatical
are serious enough comprehensible. problem
is
for instructors
to use this module Second,
the advantage
are extremely
of a color screen.
had to use black
lustrations
tool.
problem
for
though
the animations still become
If in-
some
confusion
inade-
quate. There are more sophisticated
an-
version were different and
from those listed on the help screen. The were
would be completely
and/or bored. Fitools on the screen
from those listed in the instructions
tools
the il-
althat
are very slow, they may
nally, the navigation
chemical
the SE30),
because,
may understand
frustrated
of the Macintosh
was frozen
This will be a
instructors
students
ver-
and white
slow. In some
to continue.
had
and, therefore,
(for example,
a
who would like
I reviewed the Macintosh
sion on a PowerMac structors
obviously
as a teaching
the illustrations
simplistic.
errors
to make the text inThis
the A.D.A.M. physiol-
cases, I thought the program and unable
on
technol-
Third, many of the anima-
tions are extraordinarily
of prob-
and
throughout
screens
ogy modules.
computer
currently
that use CD-ROM
ogy, for example,
The goal of this module is to promote
spelling
in other modules
the market
with this module.
exist.
imations
used. Overall,
index is absent, not
and two other
described.
This
when
module
the module
the
adds
has benefits
module preview before making a purchase. This module could be used to supplement coverage of the endocrine system in a basic physiology course, or possibly in an upper-level endocrinology course, but the use at the upper level would be more limited because of the simplistic nature of the illustrations and animations. Given that CD-ROM technology, with more sophisticated animations, is now available, potential users may want to consider all of their options carefully. I recommend that instructors obtain and review the free demonstration disc of this OPAL module in order to compare this module with other interactive technology currently available.
is
Phyllis Callahan
as
Department of Zoology Miami University Oxford, OH 45056, USA
well as limitations, and I would strongly recommend that instructors obtain the
PI1 S1043-2760(96)00112-9
Cell Power Bioenergetics at a Glance: An Illustrated Introduction By David A. Harris. Oxford, Blackwell, 1995, $24.95 (II 6 pages), ISBN 0-63202388-0. A recent review by K.-D. Gerbitz, K. Gempel, and D. Brdiczka (Diabetes 45: 113-l 26) entitled “Mitochondria and Diabetes: Genetic, Biochemical, and Clinical Implications of the Cellular Energy Circuit,” sent me back to my old textbooks of biochemistry to revive dim memories of the Krebs cycle and oxidative phosphorylation. I realized that the texts were probably out of date and, consequently, welcomed the opportunity to review this little book. Textbooks of biochemistry have gained weight in recent years as knowledge has exploded. As a result, some publishers have divided the material in the obese books into slim volumes with restricted topics. I have already reviewed Metabolism at a Glance, written by J.G. Salway and published by Blackwell. Not only are these books easier to can-y, but they allow the authors more freedom to
TEM Vol. 7, No. 6, 1996
innovate because they do not have to conform to the style of the entire large book. Bioenergetics is not an easy subject. David Harris, who is at the Department of Biochemistry at Oxford University, has designed a visually pleasing short course that doles out the subject in small doses. Although the illustrations lack color, they are numerous, large, and clear. In the text, key words are printed in boldface for emphasis and ease of recognition. The book begins with a short essay on why cells require energy, with a preliminary dip into the formidable subject of thermodynamics. The physical chemistry of energetics is developed in Chapters 2 through 6 with enough mathematics to turn off generations of medical students. With a bit of patience, however, even a practicing endocrinologist out of medical school for 20 years can understand
the concepts.
Chapter 7 returns the reader to the more familiar topic of ATP and ion gradients. Subsequent chapters relate to molecular oxygen and its dangerous radicals. The mitochondrial electron transport
01996,
Elsevier Science Inc., 1043-2760/96/$15.00
chain is carefully explained and related to similar mechanisms that exist in the photosynthetic apparatus in plants and some bacteria. ATP synthesis in mitochondria is examined in detail and is related to events that occur in the cytoplasm of the cell. This section, in particular, is pertinent to an understanding of the review cited earlier on mitochondria and diabetes. The importance of proton (hydrogen ion) gradients is discussed and made clear, as is the topic of other ion pumps. In spite of the clear illustrations and the efforts of the author, this book is not an easy read. The complexity of the sub ject must take the blame for the need to work hard at understanding it. If there is a need to understand the formation and utilization of energy in a cell, however, Harris’s book is a good place to start.
Murray Saffran Department
of Biochemistry and Molecular Biology Medical College of Ohio Toledo Ohio 43699-0008, USA PI1 S1043-2760(96)00111-7
221