This review is from: Biochemistry (Biochemistry (Berg)) (Hardcover)
I'm halfway through a biochemistry course using this book (Edition 6).
I care about textbooks. Some really go the extra mile to make concepts accessible and memorable. Not this book.
Berg et al are the opposite of exciting. They fail to provide emphasis and perspective that would help concepts stick. Read Richard Feynman's Physics series to see what exciting teaching is all about. He understands what is amazing and what deserves special treatment, use of analogies, etc.
Berg et al use a very stodgy dry style, I think in an effort to avoid saying anything wrong, which is admirable. Feynman on the other hand is not afraid to make lively oversimplifications, and warns you he is, in order to get the basic concept across. Then he slowly develops the concept to a more sophisticated level, sometimes leaving the original model behind, but that's OK because you take an intuitive path similar to the original scientists discovering the concepts.
Berg et al on the other hand insist on a kind of "top-down" approach where often a subject is introduced with sentences thick with generalizations that make no sense (or only vague sense) until more specific examples or detail is developed later. A little top-down is ok if it is simple and gives you a roadmap. Berg et al do it heavy-handedly, often using terms which have not been defined, leaving you to thumb wildly through previous chapters wondering if you missed something.
Top-down explanations are very appealing to writers who already know the material thoroughly. A best-kept-secret of teaching though is that bottom-up explanations (start with building blocks and work up to complex concepts) is really how powerful learning takes place. It's how the concepts were developed in the first place; it's how we learned in kindergarten.
To be fair, my organic (and inorganic) chemistry background is weak, as perhaps with many biology students. Berg et al assume you know chemistry thoroughly, and that is understandable. But aside from that, the language and writing style is simply dense, dry, and requires you pay close attention to each word in the sentence so you don't misinterpret what is being said. Again, compare it to Feynman's writing. The concepts are not easy in his books, but you really feel caught up in his explanations.
Using Berg/Stryer is exhausting, not what I admire in a textbook. I encourage students to make frequent trips to the index, as quick visits to later chapters may very well help you understand an earlier chapter better (for instance tRNA mechanisms). Or just read it back to front, it might flow better that way :) By the way, I agree with other reviewers that criticize the index as being mediocre (does not indicate where the prime definition of terms are), and in general the authors do not seem to understand the importance of defining terms clearly and emphatically prior to referencing them.
I think often reviewers that give favorable reviews to books such as this already know the material so of course the sentences full of generalizations and undefined terms make perfect sense. However, the true value of a textbook is careful organization, defining of terms, making distinctions, building up of concepts out of simpler ideas, demystifying convoluted concepts, highlighting what is important, and clearly pointing out when simplified results of non-obvious concepts are employed (such as reaction rates, equilibrium constants). This book gets low grades for that kind of teaching.
On the other hand, I've noticed that most biochemistry books just blast you with new substances, sentence after sentence, with little substantiating or clarifying logic, as if you are on a memorization marathon; so I can't suggest a better single alternative at this time. Someone needs to write a book with the approach of imparting a usable set of knowledge with some kind of theme (such as understanding mechanisms to fight cancer). Perhaps the field is just so vast that one must wade in hip deep and muck around for several years until some light begins to dawn. I would like to believe a good book can be written with a building block approach.
The book does get high grades for excellent summaries at the ends of the chapters and additional (but I've seen more) references. The authors take their duties very seriously to present correct and accurate information. They are just not the most gifted writer-teachers to come along. Actually, I should say not the most gifted "communicators", as they are highly competent writers, which in a way works against them. I will say it is a pleasure to find authors who use the word "comprise" correctly - kudos for that!
As I reach the end of the course, which covered about 2/3 of the book, my opinion has not changed. Reading the book is tough sledding for me and I'm digging into basic chemistry, organic chemistry, and even physical chemistry (to better understand free energy concepts) to really get a feel for what drives these biochemical processes. I also am realizing that one probably would benefit greatly from some cellular biology to get a perspective on the metabolic processes described in this book. The mechanisms seem to appear magically out of nowhere, as if in a vacuum. I think real understanding will involve delving more into why certain things don't happen, how the processes are controlled, where the processes happen, etc.
I can't overly criticize the presentation until I find a better alternative (but I have already been exposed to too much to look with fresh eyes again) -- perhaps the subject is just so incredibly vast that it requires many, many rereadings and additional texts -- but I just feel there must be a better way to make the concepts stick in an introductory book. It is a matter of style as well as organization.
By the way, a book whose style I find pretty good is:
Modern Physical Organic Chemistry by Eric V. Anslyn; Dennis A. Dougherty (Author)
You can feel them trying to communicate. I have an old Morrison & Boyd organic chemistry textbook whose introductory chapters on stereoisomers, I feel, really developed the ideas from the ground up nicely.
이 책이 탑다운 방식으로 설명하고 있어서 매우 불만임을 표현하며 바텀업 방식의 생화학책을 소개하고 있는 리뷰입니다. 탑다운 방식의 박자세 공부방법에는 아주 잘 맞는 필독서임을 간접증명해 주는 리뷰입니다.
이 책은 생명 분자 설계와 에너지 변환, 생명 분자들의 합성, 환경 변화에 대한 반응 등의 내용을 담아 정리했다.
Customer Reviews
I'm halfway through a biochemistry course using this book (Edition 6).
I care about textbooks. Some really go the extra mile to make concepts accessible and memorable. Not this book.
Berg et al are the opposite of exciting. They fail to provide emphasis and perspective that would help concepts stick. Read Richard Feynman's Physics series to see what exciting teaching is all about. He understands what is amazing and what deserves special treatment, use of analogies, etc.
Berg et al use a very stodgy dry style, I think in an effort to avoid saying anything wrong, which is admirable. Feynman on the other hand is not afraid to make lively oversimplifications, and warns you he is, in order to get the basic concept across. Then he slowly develops the concept to a more sophisticated level, sometimes leaving the original model behind, but that's OK because you take an intuitive path similar to the original scientists discovering the concepts.
Berg et al on the other hand insist on a kind of "top-down" approach where often a subject is introduced with sentences thick with generalizations that make no sense (or only vague sense) until more specific examples or detail is developed later. A little top-down is ok if it is simple and gives you a roadmap. Berg et al do it heavy-handedly, often using terms which have not been defined, leaving you to thumb wildly through previous chapters wondering if you missed something.
Top-down explanations are very appealing to writers who already know the material thoroughly. A best-kept-secret of teaching though is that bottom-up explanations (start with building blocks and work up to complex concepts) is really how powerful learning takes place. It's how the concepts were developed in the first place; it's how we learned in kindergarten.
To be fair, my organic (and inorganic) chemistry background is weak, as perhaps with many biology students. Berg et al assume you know chemistry thoroughly, and that is understandable. But aside from that, the language and writing style is simply dense, dry, and requires you pay close attention to each word in the sentence so you don't misinterpret what is being said. Again, compare it to Feynman's writing. The concepts are not easy in his books, but you really feel caught up in his explanations.
Using Berg/Stryer is exhausting, not what I admire in a textbook. I encourage students to make frequent trips to the index, as quick visits to later chapters may very well help you understand an earlier chapter better (for instance tRNA mechanisms). Or just read it back to front, it might flow better that way :) By the way, I agree with other reviewers that criticize the index as being mediocre (does not indicate where the prime definition of terms are), and in general the authors do not seem to understand the importance of defining terms clearly and emphatically prior to referencing them.
I think often reviewers that give favorable reviews to books such as this already know the material so of course the sentences full of generalizations and undefined terms make perfect sense. However, the true value of a textbook is careful organization, defining of terms, making distinctions, building up of concepts out of simpler ideas, demystifying convoluted concepts, highlighting what is important, and clearly pointing out when simplified results of non-obvious concepts are employed (such as reaction rates, equilibrium constants). This book gets low grades for that kind of teaching.
On the other hand, I've noticed that most biochemistry books just blast you with new substances, sentence after sentence, with little substantiating or clarifying logic, as if you are on a memorization marathon; so I can't suggest a better single alternative at this time. Someone needs to write a book with the approach of imparting a usable set of knowledge with some kind of theme (such as understanding mechanisms to fight cancer). Perhaps the field is just so vast that one must wade in hip deep and muck around for several years until some light begins to dawn. I would like to believe a good book can be written with a building block approach.
The book does get high grades for excellent summaries at the ends of the chapters and additional (but I've seen more) references. The authors take their duties very seriously to present correct and accurate information. They are just not the most gifted writer-teachers to come along. Actually, I should say not the most gifted "communicators", as they are highly competent writers, which in a way works against them. I will say it is a pleasure to find authors who use the word "comprise" correctly - kudos for that!
As I reach the end of the course, which covered about 2/3 of the book, my opinion has not changed. Reading the book is tough sledding for me and I'm digging into basic chemistry, organic chemistry, and even physical chemistry (to better understand free energy concepts) to really get a feel for what drives these biochemical processes. I also am realizing that one probably would benefit greatly from some cellular biology to get a perspective on the metabolic processes described in this book. The mechanisms seem to appear magically out of nowhere, as if in a vacuum. I think real understanding will involve delving more into why certain things don't happen, how the processes are controlled, where the processes happen, etc.
I can't overly criticize the presentation until I find a better alternative (but I have already been exposed to too much to look with fresh eyes again) -- perhaps the subject is just so incredibly vast that it requires many, many rereadings and additional texts -- but I just feel there must be a better way to make the concepts stick in an introductory book. It is a matter of style as well as organization.
By the way, a book whose style I find pretty good is:
Modern Physical Organic Chemistry
by Eric V. Anslyn; Dennis A. Dougherty (Author)
You can feel them trying to communicate. I have an old Morrison & Boyd organic chemistry textbook whose introductory chapters on stereoisomers, I feel, really developed the ideas from the ground up nicely.
이 책이 탑다운 방식으로 설명하고 있어서 매우 불만임을 표현하며 바텀업 방식의 생화학책을 소개하고 있는 리뷰입니다. 탑다운 방식의 박자세 공부방법에는 아주 잘 맞는 필독서임을 간접증명해 주는 리뷰입니다.