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1、introduction to microbiologymicrobes have a large impact on human health(微生物對人類健康有很大的影響) microbes cause many infectious diseases.(微生物導致許多傳染病) vaccines, antibiotics, and many other advances have lessened the impact of infectious disease in the developed world, but infectious disease in developing cou
2、ntries is high.(疫苗、抗生素以及許多其他的進步降低了傳染病對開發中地區的衝擊,但是發生在開發中國家的傳染病仍然偏高) new illnesses caused by microorganisms continue to emerge and known pathogens are becoming resistant to treatment.(微生物所導致的新疾病持續出現,而且已知有許多病原體逐漸對醫療處理產生抗性) in 1900 in the united states the infant mortality rate was near 50%, mostly due
3、to childhood infectious disease and until about 1930, microbes were the major cause of death in humans. from todays perspective this is a horrendous(可怕的)statistic(統計量), over half of all infants did not make it to adulthood! with the advent of antibiotics, vaccines and better water sanitation, humani
4、ty has reduced the impact of pathogenic microbes in developed countries, but they will always remain an important social concern. the discipline of microbiology emerged from the study of these diseases, and most advances in treating various ailments had their roots in this relatively young science.
5、"ancient" diseases continue to be a problem where nutrition and sanitation are poor, and emerging diseases such as acquired immunodeficiency syndrome (aids) are even more dangerous for such populations. the centers for disease control and prevention (the u.s. government agency charged with
6、 protecting the health and safety of people) estimates that about 9% of adults between the ages of 18-49 in sub-saharan africa are infected with hiv. yet, aids is only one of a number of new diseases that have emerged. many of these diseases have no known cure. influenza and pneumonia are leading ki
7、llers of the elderly even in the u. s. and other developed nations. even the common cold causes illness and misery for almost everyone and drains the productivity of all nations. many of the new diseases are viral in nature, making them notoriously difficult to treat. surprisingly, many diseases tha
8、t were previously thought to have only behavioral or genetic components have been found to involve microorganisms. the clearest case is that of ulcers, which was long thought to be caused by stress and poor diet. however the causative agent is actually a bacterium, helicobacter pylori, and many ulce
9、rs can be cured with appropriate antibiotics. work on other non-infectious diseases such as heart disease, stroke and some autoimmune diseases also suggest a microbial component that triggers the illness.finally, some pathogenic microbes that had been "controlled" through the use of antibi
10、otics are beginning to develop drug resistance and therefore reemerge as serious threats in the industrialized world as well as developing nations. tuberculosis is an illness that was on the decline until the middle 80s. it has recently become more of a problem, partly due to drug resistance and par
11、tly due to a higher population of immunosuppressed individuals from the aids epidemic. staphylococcus aureus strains are emerging that are resistant to many of the antibiotics that were previously effective against them. these staph infections are of great concern in hospital settings around the wor
12、ld. understanding both familiar killers and new pathogens will require an understanding of their biology, and thus an understanding of the field of microbiology.microbes are often helpful, not harmful(微生物經常是有益而非有害的) microbes form important mutualistic relationships with all sorts of organisms. many
13、of these relationships are important from a human perspective(微生物與許多生物形成重要的互利關係,而自人類角度而言其中有許多是很重要的關係) only a small faction of microbes are involved in disease; many other microbes actually enhance our well-being. the harmless microbes that live in our intestines and on our skin actually help us figh
14、t off disease. they actively antagonize other bacteria and take up space, preventing potential pathogens from gaining a foothold on our bodies. indeed, like all large organisms, humans have entire communities of microorganisms in their digestive systems that contribute to their overall health. the m
15、icrobial community in humans not only protects us from disease, but also provides needed vitamins, such as b12. human health and nutrition depends on healthy farm animals. cows, sheep, horses and other ruminant animals utilize their microbial associates to degrade plant material into useful nutrient
16、s. without these bacteria inside ruminants, growth on plant material would be impossible. commercial crops are also central to human prosperity, and much of agriculture depends upon the activities of microbes. for example, an entire group of plants, the legumes, forms a cooperative relationship with
17、 certain bacteria. these bacteria form a mutualistic relationship within the plant: the plant provides carbon and energy, while the bacteria convert atmospheric nitrogen gas into a useful nitrogen source for the plant. microbes also serve as small factories, producing valuable products such as chees
18、e, yogurt, beer, wine, organic acids and many other items. in conclusion, while it is less apparent to us, the positive role of microbes in human health is at least as important as the negative impact of pathogens.microbes have profound effects on the environment (微生物對環境有深遠的影響作用) microbes make up th
19、e major portion of the biomass present on the earth. therefore, the nutrients they eat and the products they form greatly influence the environment.(微生物是現存地球上生物質量的主要組成份子,因此,它們所吃掉的養分以及它們所形成的產物對環境有巨大的影響) cyanobacteria and algae in the oceans are responsible for most photosynthesis and are a major sink
20、 for carbon dioxide, a greenhouse gas.(存在海水中的藍綠菌和藻類是大部份光合作用的來源,也是主要的溫室效應氣體-二氧化碳的收集處) microbes release nutrients from dead organisms, making them available to the rest of the ecosystem.(微生物將養分自死亡的生物體釋放出來,提供給生態系中其餘生物所利用) some microbes play a role in the production of energy, while other microbes inter
21、fere with energy production.(部份微生物在能量的產生中扮演一角,其餘的微生物則妨礙能量的產生) whether measured by the number of organisms or by total mass, the vast majority of life on this planet is microscopic. these teaming multitudes profoundly influence the make-up and character of the environment in which we live . presently
22、, we know very little about the microbes that live in the world around us because less than 2 % of them can be grown in the laboratory. understanding which microbes are in each ecological niche and what they are doing there is critical for our understanding of the world. microbes are the major actor
23、s in the synthesis and degradation of all sorts of important molecules in environments. cyanobacteria and algae in the oceans are responsible for the majority of photosynthesis on earth. they are the ultimate source of food for most ocean creatures (including whales) and replenish the worlds oxygen
24、supply. cyanobacteria also use carbon dioxide to synthesize all of their biological molecules and thus remove it from the atmosphere. since carbon dioxide is a major greenhouse gas, its removal by cyanobacteria affects the global carbon dioxide balance and may be an important mitigating factor in gl
25、obal warming. in all habitats, microorganisms make nutrients available for the future growth of other living things by degrading dead organisms. microbes are also essential in treating the large volume of sewage and wastewater produced by metropolitan areas, recycling it into clean water that can be
26、 safely discharged into the environment. less helpfully (from the view of most humans), termites contain microorganisms in their guts that assist in the digestion of wood, allowing the termites to extract nutrients from what would otherwise be indigestible. understanding of these systems helps us to
27、 manage them responsibly and as we learn more we will become ever more effective stewards.energy is essential for our industrial society and microbes are important players in its production. a significant portion of natural gas comes from the past action of methanogens (methane-producing bacteria).
28、numerous bacteria are also capable of rapidly degrading oil in the presence of air and special precautions have to be taken during the drilling, transport and storage of oil to minimize their impact. in the future, microbes may find utility in the direct production of energy. for example, many landf
29、ills and sewage treatment plants capture the methane produced by methanogens to power turbines that produce electricity. excess grain, crop waste and animal waste can be used as nutrients for microbes that ferment this biomass into methanol or ethanol. these biofuels are presently added to gasoline
30、and thus decreasing pollution. they may one-day power fuel cells in our cars, causing little pollution and having water as their only emission.finally, we are increasingly taking advantage of the versatile appetite of bacteria to clean up environments that we have contaminated with crude oil, polych
31、olorinated biphenvyls (pcbs) and many other industrial wastes. this process is termed bioremediation and is a cheap and increasingly effective way of cleaning up pollution.studying microbes helps us to understand the world around us(研究微生物協助我們瞭解在我們周遭的世界) microbes are useful tools in research because
32、of their rapid life cycle, their simple growth requirements, and their small size.(由於快速的生活史、簡單的生長需求與渺小的體型,微生物是有用的研究工具) due to this simplicity, microbes have been essential in understanding core questions in biology.(由於它簡單的結構,微生物一直是生物學中瞭解核心問題所不可缺的) attempts to classify microorganisms have lead to a c
33、lassification system that divides all organisms into three domains of life, archaea, bacteria, and eukarya(試圖分類微生物也導致生物分類系統的形成,將所有生物分為原生菌、細菌、真核生物三大領域) microbes provide tools for use in molecular biology. these tools have allowed scientists to make rapid progress in investigating many types of microo
34、rgansims.(微生物提供分子生物學所使用的工具,這些工具使科學家在調查多種型態的微生物時能夠達成快速的進步) microorganisms used in research have many useful properties. they will grow on simple, cheap medium and will often rise to large populations in a matter of 24 hours. it is easy to isolate their genomic material, manipulate it in the test tube
35、 and then place it back into the microbe. due to their large populations it is possible to identify rare events and then with the use of powerful selective techniques isolate interesting bacterial cells and study them. these advantages have made it possible to test hypothesis rapidly . using microbe
36、s scientists have expanded our knowledge about life. below are a few examples. in scientific research, microorganisms have been indispensable instruments for unlocking the secrets of life. the molecular basis of heredity and how this is expressed as proteins was described through work on microorgani
37、sms . for an in-depth discussion on the molecular basis of heredity see dna is the hereditary material in molecular biology essentials. due to the similarity of life at the molecular level, this understanding has helped us to learn about all organisms, including ourselves.some prokaryotes are capabl
38、e of growing under unimaginably harsh conditions and define the extreme limits of where life can exist. some species have been found growing at near100 °c in hot springs and well above that temperature near deep-sea ocean vents. others make their living at near 0 °c in freshwater lakes tha
39、t are buried under the ice of antarctica. the ability of microbes to live under such extreme conditions is forcing scientists to rethink the requirements necessary to support life. many now believe it is entirely possible that jupiter's moon europa may harbor living communities in waters deep be
40、low its icy crust. what may the rest of the universe hold? until recently, while we could study specific types of bacteria, we lacked a cohesive classification system, so that we could not readily predict the properties of one species based on the known properties of others. visual appearance, which
41、 is the basis for classification of large organisms, simply does not work with many microbes because there are few distinguishing characteristics for comparison between species even under the microscope. however, analysis of their genetic material in the past 20 years has allowed such classification
42、 and spawned a revolution in our thinking about the evolution of bacteria and all other species. the emergence of a new system organizing life on earth into three domains is attributable to this pioneering work with microorganisms.the fruits of this basic research have been used by scientists to und
43、erstand microbial activity and therefore to shape our modern world. human proteins, especially hormones like insulin and human growth factor, are now produced in bacteria using in vitro.')">genetic engineering. our understanding of the immune system was developed using microbes as tools.
44、 microorganisms also play a role in treating disease and keeping people healthy. many of the drugs available to treat infectious disease originate from bacteria and fungi.one last recent role of microbes in informing us about our world has been the tools they provide for molecular biology. enzymes p
45、urified from bacterial strains are useful as tools to perform many types of analyses. such analyses allow us to determine the complete genome sequence of almost any organism and manipulate that dna in useful ways. we now know the entire sequence of the human genome, with the exception of regions of
46、repetitive dna, and this will hopefully lead to medical practices and treatments that improve health. we also know the entire genome sequence of many important pathogens. analysis of this data will eventually lead to an understanding of the function of critical enzymes in these microbes and the deve
47、lopment of tailor-made drugs to stop them. the tools of molecular biology will also affect agriculture. for example, we now know the complete genome sequence of the plant arabidopsis (a close relative of broccoli and cauliflower). this opens a new avenue to a better understanding of all plants and h
48、opefully improvements in important crops.microbes have a profound impact on every facet of human life and everything around us. pathogens harm us, yet other microbes protect us. some microbes are pivotal in the growth of food crops, but others can kill the plants or spoil the produce. bacteria and f
49、ungi eliminate the wastes produced in the environment, but also degrade things we would rather preserve. clearly they effect many things we find important as humans. in the remainder of this chapter we take a look at how scientists came to be interested in microbes and follow a few important develop
50、ments in the history of microbiology.the history of microbiology is a web of discoveries(微生物學的歷史是一堆錯綜複雜的發現) science is interdependent and new discoveries depend upon earlier contributions from many other scientists.(科學是一種相互依賴的知識,許多新發現都是依賴早期其他科學家的貢獻)before we begin the adventure that we call learning
51、 microbiology (it can be thought of as an adventure! really.), a look at the history of microbiology will help you to understand the contributions of those who have come before. this perspective will hopefully give you an appreciation of their efforts and put the body of knowledge we will examine in
52、 the context of history. keep in mind that microbiology is a relatively young science. it was only 130 years ago that it became possible to study seriously microorganisms in the laboratory, with most of our understanding of microbes coming in the last 60 years.the history of microbiology, like all h
53、uman history, is not a catalog of linear progress, but is more of an interweaving of the careers of bright individuals and their insights. each new discovery relied on previous ones and in turn spawned further inquiry. a web of interdependent concepts evolved over time through the work of scientists
54、 in many related disciplines and nations. often the research of one individual impacted the efforts of another studying a completely different problem. keep this in mind as you look at this history.below we present several journeys through this web, mentioning some individuals who were particularly
55、important in the progression. this history reflects our view of important events of the past, but is by no means comprehensive. we will first look at the development of the techniques for handling microorganisms, since everything else in microbiology depends upon these procedures. next, we will exam
56、ine how these techniques helped to settle an old debate, the question of spontaneous generation. then, we will look at the history of infectious disease. the science of microbiology had its most significant early impact on human health, uncovering the cause of the major killers of the day, and then
57、methods to treat them. as microbiology matured, scientists began to look at what non-pathogenic microbes were doing in the environment and we will look a bit at the history of general microbiology. finally, the chapter will end with an examination of the events that lead to the understanding of life
58、 at the molecular level and the profound impact this has had on microbiology and on society in general.microscopes allowed the discovery of microbes(顯微鏡使微生物的發現成為可能) microbes were first seriously described in the 17th century by robert hooke and anton leeuwenhoek using simple microscopes.(運用簡單的顯微鏡,微生
59、物首先在十七世紀被虎克和雷文虎克認真地描述) ferdinand cohn continued this work many years later, and making a first systematic attempt at classifying them.(柯恩在多年後繼續微生物的研究,他也是第一位嘗試將微生物作系統分類的科學家) for years the existence of microorganisms was suspected, but could not be proven, since bacteria were too small to be seen with the naked eye. it took the microscope to expose their tiny world and that instrument has been linked to microbiology ever since. in 1664, robert hooke devised a compound mic
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