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This volume takes a closer look how the cell organelles Golgi apparatus (also known as the Golgi complex or Golgi body), and centriole are structurally and functionally intertwined. Initially, it was believed that the role of Golgi complex is limited to the packaging and preparation for secretion of various cellular proteins, while the centriole participates in cell division and cilia formation. However, since their discovery nearly 200 years ago, it became clear that these two organelles are interacting, and that their functions are much more complex and far reaching than previously thought. Recent findings indicate that the Golgi–Centriole relationship may be important for directional protein transport, cell polarization and cell cycle progression. Current studies indicate that Golgi and centriole also participate in development and act as cellular and immunological sensors, and that their abnormalities lead to cell and developmental abnormalities, Alzheimer, cancer, various lipid disorders and neurological and immunological diseases in humans. This volume combines the latest information on the structure, molecular composition, and roles of Golgi and centriole in various cellular functions and diseases. The better understanding of the Golgi–centriole interactions may lead to the development of novel therapies for the treatment of various diseases, including cancer.
The life of Camillo Golgi was an extraordinary intellectual adventure in three major fields of biology and medicine, namely neuroscience, emerging cell biology, and the new science of medical microbiology. in 1873, Golgi published the description of a revolutionary histological technique which allowed one, for the first time, to visualize a single nerve cell with all its ramifications, and which could be followed and analyzed even at a great distance from the cell bodies. The so-called "black reaction" (later named the "Golgi method") provided the spark to a truly scientific revolution which allowed the morphology and the basic architecture of the cerebral tissue to be evidenced in all its complexity, thus contributing to the foundation of modern neuroscience. It has been written that, in the same way Galileo Galilei was able to find new stars observing any sky region with his telescope. Golgi was able to find new nervous structures and nerve cells by applying his black reaction to any brain region. Finally, the details of the most complex structure in the known universe, the brain, could be characterized. Golgi's black reaction is just one of his many successes and contributions to society. As this book illustrates, he has also strongly contributed to the development of cell biology with the "internal reticular apparatus" (later called the "Golgi apparatus") and to medical microbiology with his studies on malaria. Engrossing and authoritative, Golgi: A Biography of the Founder of Modern Neuroscience, is a detailed account of one of the most prominent European researchers of his time.
In 1898 Camillo Golgi reported his newly observed intracellular structure, the apparato reticolare interno, now universally known as the Golgi Apparatus. The method he used was an ingenious histological technique (La reazione nera) which brought him fame for the discovery of neuronal networks and culminated in the award of the Nobel Prize for Physiology and Medicine in 1906. This technique, however, was not easily reproducible and led to a long-lasting controversy about the reality of the Golgi apparatus. Its identification as a ubiquitous organelle by electron microscopy turned out to be the breakthrough and incited an enormous wave of interest in this organelle at the end of the sixties. In recent years immunochemical techniques and molecular cloning approaches opened up new avenues and led to an ongoing resurgence of interest. The role of the Golgi apparatus in modifying, broadening and refining the structural information conferred by transcription/translation is now generally accepted but still incompletely understood. During the coming years, this topic certainly will remain center stage in the field of cell biology. The centennial of the discovery of this fascinating organelle prompted us to edit a new comprehensive book on the Golgi apparatus whose complexity necessitated the contributions of leading specialists in this field. This book is aimed at a broad readership of glycobiologists as well as cell and molecular biologists and may also be interesting for advanced students of biology and life sciences.
The Atlas provides a complete overview of all major structures of the mouse brain that can be identified in Golgi preparations. The most important feature is its three-dimensional integrity since all structures and nerve tracts can be followed from one section to the next one with uninterrupted continuity. The Golgi Atlas presents a series of camera lucida drawings of the entire telencephalon and upper brain stem of the young postnatal mouse in 24 transverse, 11 sagittal and 15 horizontal planes. The drawings were prepared from selected brains stained in toto with the Golgi method, that have been serially sectioned in the three orthogonal planes. The text includes an introduction of the material and methods used for the construction of this Atlas and a survey with a complete bibliography on the previous studies made with the Golgi method in Rodents. In this account, a number of issues concerning particular anatomical details are considered in relation to the interpretations obtained by other students. Reference is made to some relevant reviews and key articles.
Sugar chains (glycans) are often attached to proteins and lipids and have multiple roles in the organization and function of all organisms. "Essentials of Glycobiology" describes their biogenesis and function and offers a useful gateway to the understanding of glycans.
This book summarizes all new data obtained after development of methods of Golgi complex sub fractionation, molecular biology and microscopy. It collects the full range of expertise, different points of view and different approaches. The book is devoted to molecular modes of the function of the Golgi apparatus as a whole, taking into account all experimental data. The book aims to make the functional organization of the Golgi apparatus more understandable.
Camillo Golgi (1843-1926) is widely regarded as one of the founders of modern neuroscience. In 1873, he discovered the black reaction -- a histological stain which proved to be a revolutionary method for studying the structure of the nervous system. To this day, the Golgi stain is widely used. And for every student of medicine or biology, Golgi's name is synonymous with one of the basic structures in the cell: Golgi Apparatus. He discovered the apparatus in 1898 and, as a result, is among the most widely cited biologist in scientific literature. But this was only one of Golgi's many contributions to scientific research. He also devised a system for the classification of neurons on the basis of axonal distribution, identified a type of cell in the cerebellum, and described the malarial cycle in the human. His discoveries were rich with therapeutic implications, and his remarkable achievements earned him a Nobel Prize for Medicine in 1906. Most books of biology or medicine point out that Golgi is one of the giants of 19th Century scientific endeavor, but he continues to remain a relatively unknown figure in the history of neuroscience and cell biology. This long-awaited biography, in a new translation from the Italian, is a fascinating analysis of Golgi's experiments, ideas, and personal life. It is welcomed by anyone who has ever learned about his brilliant discoveries but wondered about Golgi, the person. In fact, all those with an interest in the history of science, and cell biology in particular, as well as those involved in neuroscience, medicine, and biochemistry will benefit from this book.
The Golgi apparatus (GA) is typically comprised of a series of five to eight cup-shaped, membrane-covered sacs called cisternae that look something like a stack of deflated balloons. The GA is often considered the "distribution and shipping department" for the cell's chemical products. This book traces the first 100 years of GA discovery from the first published accounts from Pavia, Italy, in 1898 to the Centenary Celebration in Pavia, Italy, in 1998 to our most recent discoveries. It summarizes the past 50 years beginning with the modern era of GA discovery, leading up to the present era with almost exclusive focus on molecular biology.
The Golgi apparatus is an organelle found in most eukaryotic cells. The primary function of the Golgi apparatus is to process and package macromolecules, such as proteins and lipids, after their synthesis and before they make their way to their destination. This book presents topical research data in the study of Golgi apparatus, including Golgi organization and stress sensing; signaling pathways controlling mitotic Golgi breakdown in mammalian cells; the role of Golgi apparatus in the biological mechanisms of hypericin-mediated photodynamic therapy; the role of the Trans-Golgi Network (TGN) in the sorting of nonenzymic lysosomal proteins; and the mechanisms involving the role of Golgi apparatus alteration in neurological disorders triggered by manganese.