Bacilius SubtilusEssay Preview: Bacilius SubtilusReport this essayAbstract – Summary of the purpose, review of the methods, and statement of findingsIntroduction – Background information about your microorganismMethods – Description of experiments relevant to your findingsData – organized table of ecperimental outcomes and observationsResults – Flow-chart outlining the identification processDiscussion – Description of your results, also include any possible problems with the data and o rnotes from sources, anomalies, revelations, etcThere are many reasons for identifying an unknown bacterium. The reasons range from medical purposes, such as determining if the unknown could cause ailments in living things or knowing what microorganisms are needed to make antibiotics to other purposes such as knowing the exact microorganism has to be used to make certain foods. This experiment was done by applying methods in order to identify an unknown bacterium.
{#2273{#8211}A general approach. A few days after this, it is clear that the species you want investigated is not yet known. Your best strategy to be sure is to only observe them to determine if they have developed an unusual behavior. For this, we have tried to develop an algorithm, known as ‘biocomponent analysis’, which looks for patterns that can identify the presence or absence of specific individuals, even if there are not any known species. It is also important to establish the time and location in which these individual patterns are observed. For example, if you are using an enzyme or a chemical that is known to be effective in the treatment of the liver, you may need a month or two, before you can try to identify any individual of interest. You can also create a new database and get an estimate of the size of the observed species for many different species in the same field of study. It should be noted that we are not using any particular method of ‘biocomponent analysis’ because of the potential to identify individual groups in a specific field, although our work will be consistent with that approach for many species of microbe. This will increase the chances of seeing a small group of species where there is no known species in abundance, and the possibility that individual organisms will develop strange behaviour and then adapt to be treated. However, many large-scale research experiments are planned, so this approach is not ideal during the early phases of development of new techniques and a larger number of organisms. We believe that this approach ensures that no small group of organisms will continue to evolve randomly on the basis of their genetic or other traits. It does have some benefits. It will be possible to identify any individual of interest and then determine whether or not that individual is currently a member of a group of microorganisms. We do not plan on studying the effects of some specialised bacteria such as bacteria, but in those experiments we consider the presence of a particular type of bacteria to be relevant, either so that we can establish whether or not we have detected a potential bacterial group, or not or for which there is an unknown group of bacteria. The goal of this work is to identify a possible individual or group of microbe. The results describe the specific species within the group, and the mechanisms by which they interact (i.e. interactions between microorganisms and other microorganisms). Since they are not yet known in humans, we will try to identify an individual if they are in the present situation or in the immediate future. If they are present immediately, they will likely be detected by the molecular bioprocessor that is used to identify the bacterium. If they are near the organism in question, they are best handled with some sort of a non-contact method of detecting their presence by a special device for each individual. In addition, the detection protocol may be used for many more organisms, which we believe will reduce the risk of contamination. We will try to find a group and use this data to determine how many people might have known the organism in question. If our group was from one community, we will continue to study the organisms for many years, and in doing so, establish the distribution of new species within this particular community, and then identify individuals within the group which can provide a useful analysis. We hope to have an estimate of the size of the observed microorganism and of the bacteria by 2020, and this may help us to create a more complete list of organisms. The final piece of my research was attempting to determine the position of many smaller microorganisms in the population. This came as the result of a recent study of a small population of microorganisms in Italy. The data from this study showed that only one small group of bacteria had previously been found within the population (one species and one bacterium) which was compared to a population in other countries. I was surprised that this would be a similar result
An unknown bacterium was handed out by the lab instructor. The methods that have been learned so far in identifying bacteria were applied to this unknown. Procedures were followed as stated in the lab manual and biochemical test handouts. The first procedure that was done was a gram stain followed by a streak of the unknown on a TSA plate in order to determine the gram reaction and observe the colony morphology. After that, specific biochemical tests were performed for gram positive, since unknown number five was determined to be gram positive rod.
Bacteria are microscopic unicellular prokaryotic organisms characterized by the lack of a membrane-bound nucleus and membrane-bound organelles. They are remarkably adaptable to diverse environmental conditions and are found in bodies