![Pathogen Wanted Poster Research Project](http://s1.studyres.com/store/data/009008347_1-f4ebf92e263c6a10b3d39abc15fa9268-300x300.png)
Pathogen Wanted Poster Research Project
... a. How does the suspect attack its victim? (How does one “get it”?) b. How does it spread from one person to another; or from host to victim? c. Does it have any “accomplices”? (other organisms that carry it around) 4) Most common victims to prey upon (5 points) a. Does it infect humans only? Other ...
... a. How does the suspect attack its victim? (How does one “get it”?) b. How does it spread from one person to another; or from host to victim? c. Does it have any “accomplices”? (other organisms that carry it around) 4) Most common victims to prey upon (5 points) a. Does it infect humans only? Other ...
Basic Microbiology: Understanding Your Enemies
... 50,000 eukaryotic organisms that consist of one cell ¾ Most of them are motile and heterotrophic ¾ Infected animals & humans shed protozoa in feces in the form of an oocyst (Cryptosporidium) or cyst (Giardia) ¾ These protozoans can remain dormant for long periods in the oocyst/cyst form. They become ...
... 50,000 eukaryotic organisms that consist of one cell ¾ Most of them are motile and heterotrophic ¾ Infected animals & humans shed protozoa in feces in the form of an oocyst (Cryptosporidium) or cyst (Giardia) ¾ These protozoans can remain dormant for long periods in the oocyst/cyst form. They become ...
Common Characteristics and Distinct Features of Human
... BMRF2, which binds to 5β1 integrin, is implicated in this process. Oral and lingual epithelium is likely to be the primary target of orally transmitted virus. In parallel, EBV colonization of the B lymphocyte pool takes place, where latent EBV genomes are found in the CD27 + B cell memory subset at ...
... BMRF2, which binds to 5β1 integrin, is implicated in this process. Oral and lingual epithelium is likely to be the primary target of orally transmitted virus. In parallel, EBV colonization of the B lymphocyte pool takes place, where latent EBV genomes are found in the CD27 + B cell memory subset at ...
Bunyaviridae by Clayton M. Johnston
... In view of the untimely death of Glacier National Park Deputy Superintendent Jerry O'Neal on March 25th from hantavirus pulmonary syndrome, we are issuing the following precautions and annual reminders. Hantavirus pulmonary syndrome (HPS) is a viral disease transmitted to humans primarily through th ...
... In view of the untimely death of Glacier National Park Deputy Superintendent Jerry O'Neal on March 25th from hantavirus pulmonary syndrome, we are issuing the following precautions and annual reminders. Hantavirus pulmonary syndrome (HPS) is a viral disease transmitted to humans primarily through th ...
2. Treatment
... Enteric fever: *persistant immunity after disease. *The main anti-infectious immunity is CMI. *humoral immunity destroy the organism which into the blood ...
... Enteric fever: *persistant immunity after disease. *The main anti-infectious immunity is CMI. *humoral immunity destroy the organism which into the blood ...
Vaccinations – Cats - Puget Sound Veterinary Group
... Feline planleukopenia is caused by a parvovirus that targets the gastrointestinal tract. Signs will often manifest quickly and can include depression, loss of appetite, vomiting, profuse bloody diarrhea, or dehydration. If signs are severe, death can occur within 12 hours. In a pregnant cat, the vir ...
... Feline planleukopenia is caused by a parvovirus that targets the gastrointestinal tract. Signs will often manifest quickly and can include depression, loss of appetite, vomiting, profuse bloody diarrhea, or dehydration. If signs are severe, death can occur within 12 hours. In a pregnant cat, the vir ...
The Evolutionary Genetics of Emerging Plant RNA Viruses
... without jeopardizing another. Fitness tradeoffs across alternative hosts have been reported for several plant viruses. For instance, Jenner and associates (2002) found that Turnip mosaic virus (TuMV) capable of infecting two different genotypes of turnips paid a fitness penalty compared with the anc ...
... without jeopardizing another. Fitness tradeoffs across alternative hosts have been reported for several plant viruses. For instance, Jenner and associates (2002) found that Turnip mosaic virus (TuMV) capable of infecting two different genotypes of turnips paid a fitness penalty compared with the anc ...
Topic 19: Virulence and disease
... avian flu elements. Two hypotheses could be formulated: the 1918 flu involved recombination between human and avian flu strains, or the 1918 flu involved an avian strain shifting to humans. Imagine that you had access to flu sequences from 1900, 1905, 1910, and 1918 for ducks and humans and that you ...
... avian flu elements. Two hypotheses could be formulated: the 1918 flu involved recombination between human and avian flu strains, or the 1918 flu involved an avian strain shifting to humans. Imagine that you had access to flu sequences from 1900, 1905, 1910, and 1918 for ducks and humans and that you ...
The Silver Ion (Ag+),
... Since early civilization, silver has been known to have exceptional antimicrobial properties. Long before the advent of modern antibiotics, which only attack bacteria and are becoming disturbingly impotent against resistant super germs, silver was a commonplace sanitizer. Today, the silver ion (Ag+) ...
... Since early civilization, silver has been known to have exceptional antimicrobial properties. Long before the advent of modern antibiotics, which only attack bacteria and are becoming disturbingly impotent against resistant super germs, silver was a commonplace sanitizer. Today, the silver ion (Ag+) ...
Chapter 13 Viruses General Characteristics of all viruses
... • Most viruses infect only specific types of cells in one host; Host range is determined by specific host attachment sites and cellular factors ...
... • Most viruses infect only specific types of cells in one host; Host range is determined by specific host attachment sites and cellular factors ...
Section 2: Energy Flow in Ecosystems
... • Widespread use of antibiotics promotes the spread of antibiotic resistance. As bacteria become resistant, physicians must switch to using different antibiotics. • As new antibiotics are used, bacteria will probably develop resistance to those as well. ...
... • Widespread use of antibiotics promotes the spread of antibiotic resistance. As bacteria become resistant, physicians must switch to using different antibiotics. • As new antibiotics are used, bacteria will probably develop resistance to those as well. ...
3.1 Bacteria and viruses flashcards
... the disease from host to another? 77) What is an example of vector transmission? 78) What is an organism that causes disease? 79) The type of pathogen that only causes disease when they have an opportunity? 80) What are some STD viruses? 81) What is the virus that infects white blood cells? 82) What ...
... the disease from host to another? 77) What is an example of vector transmission? 78) What is an organism that causes disease? 79) The type of pathogen that only causes disease when they have an opportunity? 80) What are some STD viruses? 81) What is the virus that infects white blood cells? 82) What ...
ENF204 Microbiology and Parasitology
... The word microbiology derives from the Greek micros meaning small and bios meaning life and logos meaning study, for it examines organisms too small to be visible to the naked eye. Parasitology comes from the Greek words para, with, and site, food and logos, that is, dealing with living beings inhab ...
... The word microbiology derives from the Greek micros meaning small and bios meaning life and logos meaning study, for it examines organisms too small to be visible to the naked eye. Parasitology comes from the Greek words para, with, and site, food and logos, that is, dealing with living beings inhab ...
(Macroparasites and microparasites)edited [Recovered]
... examples are spread by a vector, an organism that does not cause disease itself but which spreads infection by conveying pathogens from one host to another. • Which organism would be the vector in each case? ...
... examples are spread by a vector, an organism that does not cause disease itself but which spreads infection by conveying pathogens from one host to another. • Which organism would be the vector in each case? ...
Chapter 15 Test - cloudfront.net
... D) endospore 20. Which simple organism is NOT considered alive? A) Bacteria B) Virus C) Protists D) Fungi 21. Which simple organism is used to make bread? A) Bacteria B) Protists C) Fungi D) Virus 22. Which of the following is a plant? A) Cactus B) Mushroom C) Kelp 23. How does a vaccine work? A) It ...
... D) endospore 20. Which simple organism is NOT considered alive? A) Bacteria B) Virus C) Protists D) Fungi 21. Which simple organism is used to make bread? A) Bacteria B) Protists C) Fungi D) Virus 22. Which of the following is a plant? A) Cactus B) Mushroom C) Kelp 23. How does a vaccine work? A) It ...
Chapter 15 Test - cloudfront.net
... D) endospore 20. Which simple organism is NOT considered alive? A) Bacteria B) Virus C) Protists D) Fungi 21. Which simple organism is used to make bread? A) Bacteria B) Protists C) Fungi D) Virus 22. Which of the following is a plant? A) Cactus B) Mushroom C) Kelp 23. How does a vaccine work? A) It ...
... D) endospore 20. Which simple organism is NOT considered alive? A) Bacteria B) Virus C) Protists D) Fungi 21. Which simple organism is used to make bread? A) Bacteria B) Protists C) Fungi D) Virus 22. Which of the following is a plant? A) Cactus B) Mushroom C) Kelp 23. How does a vaccine work? A) It ...
Pathology of Infectious Diseases II
... shifts.” The flu can be pandemic. In addition, the flu might not kill you, but it can leave you wide open to a bacterial infection because of the damage done to the lower respiratory tract. So pneumonia often ends up killing those with the flu. 38. Let’s talk about some ways that viruses kill host c ...
... shifts.” The flu can be pandemic. In addition, the flu might not kill you, but it can leave you wide open to a bacterial infection because of the damage done to the lower respiratory tract. So pneumonia often ends up killing those with the flu. 38. Let’s talk about some ways that viruses kill host c ...
EVD - UNSSECAA
... Ebola virus disease outbreaks can devastate families and communities, but the infection can be controlled through the use of recommended protective measures in clinics and hospitals, at community gatherings, or at home. ...
... Ebola virus disease outbreaks can devastate families and communities, but the infection can be controlled through the use of recommended protective measures in clinics and hospitals, at community gatherings, or at home. ...
ARBORICULTURE
... importance due to their severity, the rapidity with which they spread and the importance of the trees they attack. Some of those known or believed to be caused by mycoplasmas are listed below: Elm phloem necrosis. It kills elm trees within 2 to 3 weeks when infection occurs early in the season, or w ...
... importance due to their severity, the rapidity with which they spread and the importance of the trees they attack. Some of those known or believed to be caused by mycoplasmas are listed below: Elm phloem necrosis. It kills elm trees within 2 to 3 weeks when infection occurs early in the season, or w ...
General Medical Microbiology and Infectious Disease
... Student evaluations throughout the course are an important way of improving medical education, particularly during the founding years of the College of Medicine. Not only are your comments and suggestions valued, but the evaluation process represents one way for you to become familiar with the peer ...
... Student evaluations throughout the course are an important way of improving medical education, particularly during the founding years of the College of Medicine. Not only are your comments and suggestions valued, but the evaluation process represents one way for you to become familiar with the peer ...
Diseases
... • Diseases: Bubonic, pneumonic and septicemic plague • Transmitted to humans by fleas such as Xenopsylla cheopis as well as through aerosolized fluids from infected hosts • Reservoirs: rodents • Sporadic, isolated outbreaks occur around the world ...
... • Diseases: Bubonic, pneumonic and septicemic plague • Transmitted to humans by fleas such as Xenopsylla cheopis as well as through aerosolized fluids from infected hosts • Reservoirs: rodents • Sporadic, isolated outbreaks occur around the world ...
Microorganisms
... bacteria, plant-like and animal-like protists, fungi, and viruses. Skills: Students should have some basic microscope skills and be able to recognize eukaryotic cells (plant and animal) by their organelles. Students may think there were no effective treatments for diseases because they were undiagno ...
... bacteria, plant-like and animal-like protists, fungi, and viruses. Skills: Students should have some basic microscope skills and be able to recognize eukaryotic cells (plant and animal) by their organelles. Students may think there were no effective treatments for diseases because they were undiagno ...
Bioterrorismpost - alistawatkins
... Smallpox has a high mortality rate. • Smallpox (also called variola) is the only disease that has been completely wiped out throughout the world. • Smallpox is also potentially one of the most devastating biological weapons ever conceived. • The (WHO) officially declared smallpox eradicated in 1980 ...
... Smallpox has a high mortality rate. • Smallpox (also called variola) is the only disease that has been completely wiped out throughout the world. • Smallpox is also potentially one of the most devastating biological weapons ever conceived. • The (WHO) officially declared smallpox eradicated in 1980 ...
Social history of viruses
![](https://commons.wikimedia.org/wiki/Special:FilePath/Polio_physical_therapy.jpg?width=300)
The social history of viruses describes the influence of viruses and viral infections on human history. Epidemics caused by viruses began when human behaviour changed during the Neolithic period, around 12,000 years ago, when humans developed more densely populated agricultural communities. This allowed viruses to spread rapidly and subsequently to become endemic. Viruses of plants and livestock also increased, and as humans became dependent on agriculture and farming, diseases such as potyviruses of potatoes and rinderpest of cattle had devastating consequences.Smallpox and measles viruses are among the oldest that infect humans. Having evolved from viruses that infected other animals, they first appeared in humans in Europe and North Africa thousands of years ago. The viruses were later carried to the New World by Europeans during the time of the Spanish Conquests, but the indigenous people had no natural resistance to the viruses and millions of them died during epidemics. Influenza pandemics have been recorded since 1580, and they have occurred with increasing frequency in subsequent centuries. The pandemic of 1918–19, in which 40–50 million died in less than a year, was one of the most devastating in history.Louis Pasteur and Edward Jenner were the first to develop vaccines to protect against viral infections. The nature of viruses remained unknown until the invention of the electron microscope in the 1930s, when the science of virology gained momentum. In the 20th century many diseases both old and new were found to be caused by viruses. There were epidemics of poliomyelitis that were only controlled following the development of a vaccine in the 1950s. HIV is one of the most pathogenic new viruses to have emerged in centuries. Although scientific interest in them arose because of the diseases they cause, most viruses are beneficial. They drive evolution by transferring genes across species, play important roles in ecosystems and are essential to life.