E. Coli can be but only in oxygen free conditions. Normally it is aerobic.
The name of the process that requires oxygen is aerobic respiration. Aerobic respiration takes in oxygen and releases carbon dioxide.
Aerobic exercise is good for the heart.
Aerobic respiration is the type of cellular respiration that requires oxygen. This process involves the release of glucose for energy.Aerobic respiration requires oxygen to be present because it is the final electron acceptor at the end of the electron transport chain. If it is not present, then the electron can not go through the chain and fermentation will cycle instead. Fermentation is much more inefficient in producing ATP (a differenence of 32 ATP).
Aerobic Respiration: Respiration that requires oxygen Anaerobic Respiration: respiration that does not use oxygen aerobic respiration is continuous. anaerobic respiration has no new subsrates from photosynthesis to continue. it is usually shorter and not as efficient.
In the mitochondria.
E. aerogenes is generally found in the human GASTROINTESTINAL TRACt
E. coli is coccobacillus
Enterobacter aerogenes is a Gram negative rod-shaped bacterium in the same family as Esherichia coli. It can grow on many of the same selective media as Esherichia coli, including: MacConkey Agar, EMB agar and Lauryl-Tryptose broth. E. aerogenes ferments lactose, producing acid and gas like Esherichia coli and is classified as an example of coliform bacteria. There are several significant differrences between E. aerogenes and E. coli: 1) Most strains of E.coli are able to grow and produce acid from lactose in a medium such as lauryl tryptose broth or brilliant green bile broth at 44.5 degrees C. while most strains of E. aerogenes do not grow well at that temperature, E. aerogenes grows better at temperatures betwee 34 - 40 degrees C. 2) E. aerogenes carries out 2,3-butanediol fermentation and thus give a positive test in the Voges-Proskauer test while E. coli is negative. 3) E. coli is positive in the methyl red test while E. aerogenes is usually, but not always, negative (this is not the best test to rely on). 4) E.coli is positive for the indole test while E. aerogenes is negative, this is a very reliable test. 5) E. aerogenes can grow on Simmon's citrate agar while E. coli does not. You can distinguish between E. aerogenes and bacteria in the Proteus and Salmonella genera by using the hydrogen sulfide test, using either Kligler's iron agar or triple sugar iron agar. Most Proteus and Salmonella strains produce hydrogen sulfide and make a black precipitate but E. aerogenes does not. There are a lot of similarities between Enterobacter aerogenes and Klebsiella pneumonia. The urease test is one of the few tests that distinguishes E. aerogenes from K. pneumonia. Enterobacter aerogenes is a Gram negative rod-shaped bacterium in the same family as Esherichia coli. It can grow on many of the same selective media as Esherichia coli, including: MacConkey Agar, EMB agar and Lauryl-Tryptose broth. E. aerogenes ferments lactose, producing acid and gas like Esherichia coli and is classified as an example of coliform bacteria. There are several significant differrences between E. aerogenes and E. coli: 1) Most strains of E.coli are able to grow and produce acid from lactose in a medium such as lauryl tryptose broth or brilliant green bile broth at 44.5 degrees C. while most strains of E. aerogenes do not grow well at that temperature, E. aerogenes grows better at temperatures between 34 - 40 degrees C. 2) E. aerogenes carries out 2,3-butanediol fermentation and thus give a positive test in the Voges-Proskauer test while E. coli is negative. 3) E. coli is positive in the methyl red test while E. aerogenes is usually, but not always, negative (this is not the best test to rely on). 4) E.coli is positive for the indole test while E. aerogenes is negative, this is a very reliable test. 5) E. aerogenes can grow on Simmon's citrate agar while E. coli does not. You can distinguish between E. aerogenes and bacteria in the Proteus and Salmonella genera by using the hydrogen sulfide test, using either Kligler's iron agar or triple sugar iron agar. Most Proteus and Salmonella strains produce hydrogen sulfide and make a black precipitate but E. aerogenes does not. There are a lot of similarities between Enterobacter aerogenes and Klebsiella pneumonia. The urease test is one of the few tests that distinguishes E. aerogenes from K. pneumonia. Klebsiella is positive for urease production while Enterobacter is negative.
E. aerogenes is Methyl Red negative due to the fact that it enzymatically converts these acidic end products into a more basic end product through the use of Acetylmethylcarbinol.
dfd
Enterobacter aerogenes is H2S positive because it has the ability to produce hydrogen sulfide gas as a byproduct of its metabolism. This characteristic is part of the organism's biochemical profile and can be used in laboratory identification tests.
Enterobacter aerogenes is a Gram-negative, oxidase negative, catalase positive, citrate positive, indole negative, rod-shaped bacterium that is generally found in the human gastrointestinal tract. It is amylase negative.
E. aerogenes is a non-motile bacterium that produces gas from lactose fermentation. S. marcescens is a motile bacterium that produces a distinctive red pigment. S. Typhimurium is a motile bacterium that causes a type of foodborne illness known as salmonellosis.
For Enterobacter aerogenes, common lab tests include culture and sensitivity testing on samples such as blood, urine, or sputum to identify the bacteria and determine its susceptibility to antibiotics. Molecular tests like polymerase chain reaction (PCR) can also be used for rapid and accurate detection of E. aerogenes DNA in clinical specimens. Biochemical tests, such as indole, citrate utilization, or urease tests, can help further differentiate Enterobacter species in the lab.
red
Yes, Kligler's Iron Agar (KIA) can help differentiate between Escherichia coli and Enterobacter aerogenes. E. coli typically ferments glucose and lactose, producing acid throughout the medium, resulting in a yellow slant and butt. In contrast, E. aerogenes ferments glucose and lactose as well, but often produces gas, which can lead to cracks or lifting in the agar, and may also show a yellow slant and butt, but with different gas production characteristics. Thus, KIA can provide valuable information for distinguishing between these two organisms.
Enterobacter aerogenes is a gram-negative bacterium and typically does not retain acid-fast stains due to its cell wall structure. Therefore, a positive result on an acid-fast test would be unlikely for Enterobacter aerogenes.