Both prokaryotes and protists have negative and positive impacts on humans. Prokaryotes and protists are both used in a variety of ways by humans today. They can affect humans in the way of disease, which can be deadly, but also help humans with environmental issues too. Also, both provide food sources for humans which are beneficial.
Most prokaryotes are bacteria, which can cause many human diseases. In fact, bacteria cause about one half of human diseases (Reece et. al, 2011 p583). Some examples of prokaryotes that cause diseases are, Mycobacterium tuberculosis, which causes tuberculosis mainly in adults in their mid-life, but is not limited and can affect all age groups. This type of bacterial infection is normally treated with more than one antibiotic because bacteria have a high resistance to antibiotics since they have very quick generation
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Many protists have a lot of environmental benefits that help humans and our planet. For example, diatoms are widespread, and there is an abundance of them because they have quick generation times. Diatoms go through their rapid growth during blooms. Because of these blooms there are a lot of dead diatoms at the bottom of oceans and they hold carbon dioxide within their bodies, which helps to reduce the amount of carbon dioxide in the atmosphere. This could eventually help towards the effects of global warming (Reece et, al. 2011 p596). Besides the environmental factors Humans may actually eat protist without even knowing that they are. The protists Porphyra, is a red alga that is used in sushi. It’s the crispy wrap part around the outside of the sushi roll, and can be used in other foods as well. Lastly, humans also use a type of Brown Algae, called Laminaria, which they put in soup. Laminaria can also be used as a thickener for food like in salad dressing or pudding (Reece et, al. 2011
There are many different cells that do many different things. But all of these cells fall into two categories: prokaryotic and eukaryotic cells. Eukaryotic cells contain a nucleus and are larger in size than prokaryotic cells. Prokaryotic cells do not contain a nucleus, are smaller and simpler than eukaryotic cells. Two of their similarities are they both have DNA as their genetic material and are covered by a cell membrane. Two main differences between these two cells are age and structure. It is believed that prokaryotic cells were the first forms on earth. They are considered primitive and originated approximately 3.5 billion years ago. Eukaryotic cells have only been around for about a billion years. There is strong evidence that suggests eukaryotic cells may be evolved from groups of prokaryotic cells that became interdependent on each other (Phenotypic analysis. (n.d.).
Eukaryotic Cells are Deemed as a Result of the Evolution of Symbiotic Prokaryotes Both Prokaryotic and Eukaryotic cells over time have sustained very dynamic changes from one another. More specifically we have seen the appearance of a more complicated and organized cell structure, the nucleus. However the big question amongst scientists today is how did these changes first occur? A fundamental concept of this evolution is the belief in the natural progression 'from the simple, to the more complex.' However one popular theory that argues that Prokaryotic symbiosis was responsible for forming the Eukaryotic nucleus is the 'Endosymbiotic Theory' this theory was first proposed by a former Boston University Biologist known as Lynn Margulis in the 1960's.
Bacteria play a large role in our health, the environment, and most aspects of life. They can be used in beneficial ways, such as decomposing wastes, enhancing fertilizer for crops, and breaking down of substances that our bodies cannot. However, many bacteria can also be very harmful by causing disease. Understanding how to identify bacteria has numerous applications and is incredibly important for anyone planning to enter the medical field or begin a career in research. Having the background knowledge of identifying an unknown bacteria may one day aid healthcare professionals diagnose their patient with a particular bacterial infection or help researchers determine various clinical, agricultural, and numerous other uses for bacteria.
Antibiotic-resistant bacteria are created when mutations in the pathogen's genetic code occurs, changing the protein in the bacteria that the antibiotics normally go after into a shape that the antibiotic can not recognize. The average bacteria divides every twenty minutes, so if a contaminated spot has one single bacteria in the morning, there could be trillions on that same spot at the end of the day. That means that when counting all the possibilities of mutations, the amount of mutated offspring that the bacteria might have formed during those replications could be as high as in the millions. Fortunately though, this does not happen so frequently that it is normally an issue. The amount of non-mutated bacteria vastly outnumbers the mutated ones and many of the mutations occurring in the bacteria usually have either a harmful effect, or not effect at all on its function. That means that the pathogen is still relatively less harmful than it c...
During her presentation, Bonnie Bassler expends many different aspects of communication in a bacterial level and how successful communication is important to survival and efficient functioning. It is evident from her presentation that without a common language to communicate with, bacteria could not work as efficiently as they do, neither to immunize people nor create havoc in them. In her presentation, Bassler asserts the importance of the use of language in communication in bacteria, using rhetorical appeals – logical, ethical and emotional – and how it is consequently related to humans.
According to NOAA phytoplankton are microscopic organisms that continuously convert sunlight and nutrients into living tissue. Phytoplankton can be harmful to the bay because they at an uncontrollable rate causing harmful algae blooms when there is an abundance of nutrients. Phytoplankton also serve as the main food source for a larger but still microscopic organism named Zooplankton. Marine Bio.org did a study on zooplnkton revealing that they are very weak swimmers making them an easy food source for any larger organsim. Zooplanktons’ main purpose serves as the main food source for small fish and
Prokaryotic cell: have no membrane covered organelles, they also have circular DNA and bacteria, Eukaryotic cell: have membrane covered organelles, they also have linear DNA and all other cells. Also the cell cycle is short in prokaryotic cells, roughly taking about 20-26 minutes to complete. And in eukaryotic cells, the cell cycle is long, it usually takes about 12-24 hours to complete. Below is a table of some of the differences between the cells:
Bacteria are one cause of infectious disease. Bacteria are a single-cell microorganism that is very common in our bodies. Less than one percent of bacteria will actually make us sick. Some of the more common infections caused by bacteria include strep throat, salmonella, and e-coli. Strep throat is common in children and causes a painful sore throat. Strep is usually treated with antibiotic medication. Salmonella is spread on food that is contaminated by human or animal...
Hats off to bacteria! This article summarizes that bacteria are good for our body and help us function a lot better. Bacteria live in our guts, in our mouths, and on our skin. Overuse of antibiotics has disturbed the bacterial ecosystem, possibly so much that it is irreversible. In 1999 Lawrence Brandt a professor of medicine and surgery at the Albert Einstein College of medicine had success when trying to help a patient combat diarrhea induced by clostridium difficile. A patient developed diarrhea after taking a course of antibiotics for sinusitis; nothing could shake her C.difficile infection. Brandt reasoned the initial antibiotic treatment had killed gut bacteria that promote digestive health; not knowing which strain to replace, he transplanted stool form her husband. That night she reported marked improvement- for the first time in six months. This procedure has helped patients, but hopefully in the future doctors will be able to administer the particular strain of bacteria that is needed. 99% of the bacteria we harbor are resistant to culture in the lab. It was this impossible to study bacteria until the last decade or so, when DNA sequencing techniques allowed researchers to obtain gene sequences from as little as one bacterial cell. With this researchers found that bacteria cells in our bodies outnumber our human cells. Bacterial exposure throughout our lifetime is needed for our wellbeing, thinking, and functioning, contributing to conditions such as diabetes, obesity, allergies, asthma, and atherosclerosis, as well as to anxiety and mood and cognition disorders. These conditions have become more prominent because of our obsession with sanitation has eliminated the exposure to bacteria humans used to routinely get throu...
Bacteria are found nearly everywhere within the body and most types are harmless or even helpful to bodily function (Novitt-Moreno). While it is important to have these bacteria in the body, pathogenic invaders can cause serious illnesses. Pathogenic bacteria work by either actually attacking a part of the victim’s body or releasing toxic waste products into the body. Bacteria are single-celled and contain all of the cellular mechanisms needed to live, grow, and reproduce (Novitt-Moreno). That means, when treating a bacterial infection, it is critical to have a highly specific antibiotic that can destroy the unwanted
Every day, I would drag myself to school, do my work, get home, do homework, then go to bed. For years, on and on every single day using the same method, repeating the same pattern. “Go to page 247 in your textbook.” “Find the circumference of the circle provided.” “Identify the organisms as prokaryotic or eukaryotic.” I felt that my life couldn’t get any worse, that everybody had it better off than me. I hated every single hour of the day, every single day of the week. I used to wear a fake mask to make it seem like everything was okay, all was well, when all I was doing was living a lie. Then I read your book, “Finding Spirit Bear”. My english teacher assigned us the book as an assignment for class, which I sped through, just to get it over
Prokaryotic Cells All living things are made of cells, and cells are the smallest units that can be alive. Life on Earth is classified into five kingdoms, and they each have their own characteristic kind of cell. However the biggest division is between the cells of the prokaryote kingdom (monera, the bacteria) and those of the other four kingdoms (animals, plants, fungi and protoctista), which are all eukaryotic cells. Prokaryotic cells are smaller and simpler than eukaryotic cells, and do not have a nucleus. Prokaryotic means 'pre-nucleus' and eukaryotic means 'true nucleus'.
Leboffe, M. J., & Pierce, B. E. (2010). Microbiology: Laboratory Theory and Application, Third Edition 3rd Edition (3rd Ed.). Morton Publishing
Microbes are everywhere in the biosphere, and their presence invariably affects the environment in which they grow. The effects
How often also does a human use or eat algae in his daily life? When most people think of algae, they probably think of something that is slimy, gross, and dirty. Algae may irritate people because it grows in unwanted places like swimming pools and boats. Algae can be toxic and it is slimy, but algae benefits people in all aspects of life. Humans obtain algin from algae to help make ice cream, pudding, face cream, and shoe polish. Algae is present in hamburgers, yoghurt, and cakes. Algae also helps make explosives, insulation, and paint. Algae produces most of the oxygen that animals breathe and without it the world would suffocate. Also, according to Helen Challand, "It is now believed that the oil and gas formed millions of years ago in the ground were created by algae" (20).