Phenotypic tests are used to identify microbes based on metabolic and biochemical pathways present in those microbes. There are many automated and semi-automated commercial systems available. These methods can be very informative but are not as accurate as MALDI-TOF or genotypic methods.
6.5% salt broth The 6.5%
salt broth test is used to analyze the tolerance level of various bacteria under halophilic conditions. This test is used because most organisms cannot survive in high salt concentrations while
Staphylococci,
Enterococci, and
Aerococci are all expected to tolerate 6.5% NaCl concentrations.
Acetate utilization The
acetate utilization test is used primarily to differentiate between
Escherichia coli from members of the genus
Shigella. Many of the
Escherichia coli strains have the capability of the utilization of acetate for a sole carbon and energy source, while
Shigella does not. Since acetate utilization results in an increase in pH, an indicator is added that changes color under conditions of acetate utilization.
ALA An ALA (
delta-aminolevulinic acid) test is used to test for the presence of
porphyrin and
cytochrome compounds. Finding
hemin synthesis indicates that the organism is likely
Haemophilus.
Aminopeptidase The
aminopeptidase test analyzes bacteria for the production of the enzyme L-alanine-aminopeptidase, an enzyme found in many
gram-negative bacteria. Adding L-Alanine-4-nitroanilide hydrochloride to a bacterial culture works as an indicator, changing to a yellow color in the presence of L-alanine-aminopeptidase.
Analytical profile index An
analytical profile index is a fast identification system based on biochemical incubation tests. Usually, this test is used to quickly diagnose clinically relevant bacteria by allowing physicians to run about 20 tests at one time.
Antibiotic disks Antibiotic disks are used to test the ability for an antibiotic to inhibit growth of a microorganism. This method, which is commonly used with
Mueller–Hinton agar, is used by evenly seeding bacteria over a petri dish and applying an antibiotic treated disk to the top of the agar. By observing the ring formed around the disk formed due to the lack of bacterial growth, the
zone of inhibition can be found, which is used to find the susceptibility of an organism to an antibiotic.
CAMP A
CAMP test is used to differentiate between
Streptococcus agalactiae and other species of
beta-hemolytic Streptococcus. This biochemical test uses the fact that
Streptococcus agalactiae excretes a CAMP substance, making it slightly more hemolytic, which can be observed on blood agar media.
Catalase The catalase test tests whether a microbe produces the enzyme catalase, which catalyzes the breakdown of hydrogen peroxide. Smearing a colony sample onto a glass slide and adding a solution of hydrogen peroxide (3% H2O2) will indicate whether the enzyme is present or not. Bubbling is a positive test while nothing happening is a negative result.
Cetrimide agar Cetrimide agar slants is a selective agar used to isolate
Pseudomonas aeruginosa.
CLO tests The
CLO test is used to diagnose
H. Pylori in patient biopsies. A sample of the biopsy is places in a medium containing
urea, which
H. Pylori can use in some of its biochemical pathways. Consumption of urea indicates a positive test result.
Coagulase The
coagulase test determines whether an organism can produce the enzyme coagulase, which causes the
fibrin to clot. Inoculating a plasma test tube with the microbe indicates whether coagulase is produced. A clot indicates the presence of coagulase, while no clot indicates the lack of coagulase.
DNA hydrolysis DNase agar is used to test whether a microbe can produce the
exoenzyme deoxyribonuclease (DNase), which hydrolyzes DNA.
Methyl green is used as an indicator in the growth medium because it is a cation that provides an opaqueness to a medium with the presence of negatively charged DNA strands. When DNA is cleaved, the media becomes clear, showing the presence of DNase activity. DNA hydrolysis is tested by growing an organism on a DNase Test Agar plate (providing nutrients and DNA) and then checking the plate for hydrolysis. The agar plate has DNA-methyl green complex, and if the organism on the agar does hydrolyze DNA then the green color fades and the colony is surrounded by a colorless zone.
Gelatin The
gelatin test is used to analyze whether a microbe can hydrolyze gelatin with the enzyme
gelatinase. The gelatin makes the agar solid, so if an organism can produce gelatinase and consume gelatin as an energy and carbon source, the agar will become liquid during growth.
Gonocheck II The Gonochek II test, a commercial biochemical test, is used to differentiate between
Neisseria lactamica,
Neisseria meningitidis,
N. gonorrhoeae and
Moraxella catarrhalis. The principle behind this test is to use enzymes native to the organism to create a colored product in the presence of foreign molecules. The chemical 5-bromo-4-chloro-3-indolyl-beta-D-galactoside is used in the test because
N. lactamica can hydrolyze it with the production of β-
galactosidase, turning the solution into a blue color. Gamma-glutamyl-p-nitroanilide is added to the solution to indicate whether the bacteria is
N. meningitides, which hydrolyzes the molecule with the enzyme gamma-glutamylaminopeptidase, producing a yellow end-product. Prolyl-4-methoxynaphthylamide is in the solution to identify
N. gonorrhoeae because of its ability to hydrolyze the molecule with the enzyme hydroxyprolylaminopeptidase, creating a red-pink derivative.
M. catarrhalis contains none of these enzymes, rendering the solution colorless. This process of identification takes approximately 30 minutes in total.
Hippurate The Hippurate diagnostic test is used to differentiate between
Gardnerella vaginalis,
Campylobacter jejuni, Listeria monocytogenes and group B streptococci using the chemical Hippurate. The Hippurate hydrolysis pathway, capable by organisms with the necessary enzymes, produces glycine as a byproduct. Using the indicator
ninhydrin, which changes color in the presence of glycine, will display either a colorless product, a negative result, of a dark blue color, a positive result.
Indole butyrate disk An
indole butyrate disc is used to differentiate between
Neisseria gonorrhoeae (negative result) and
Moraxella catarrhalis (positive result). This test involves a
butyrate disk, which when smeared with a culture, will change color for a positive result after 5 minutes of incubation. A blue color is the result of a positive test.
Lysine iron agar slant The
lysine iron agar slant test is used to tell whether an organism can
decarboxylate lysine and/or produce
hydrogen sulfide.
Lysostaphin The
lysostaphin test is used to differentiate between
Staphylococcus and
Micrococcus bacteria.
Lysostaphin can
lyse Staphylococcus, but
Micrococcus bacteria are resistant to the chemical.
Methyl red test The
methyl red test is used to analyze whether a bacterium produces acids through sugar fermentation.
Microdase Microdase is a modified oxidase test used to differentiate
Micrococcus from
Staphylococcus by testing for the presence of
cytochrome c. A positive result produces a dark color around the inoculant while negative result produces no color change.
Nitrite test The
nitrite test is commonly used to diagnose urinary tract infections by measuring the concentrations of nitrite in solution, indicating the presence of a gram-negative organism. A simple nitrite test can be performed by adding 4 M sulfuric acid to the sample until acidic, and then adding 0.1 M iron (II) sulfate to the solution. A positive test for nitrite is indicated by a dark brown solution, arising from the iron-nitric oxide complex ion.
Oxidase The oxidase test indicates whether a microbe is aerobic. By using the chemical
N,N,N,N-tetramethyl-1,4-phenylendiamin, an electron acceptor that changes color when oxidized by
cytochrome c oxidase, one can deduce whether a microbe can perform aerobic respiration. A color change to purple indicates oxidative respiration while no color change provides evidence that the organism does not have cytochrome c oxidase.
PYR The PYR test is used to check if an organism has enzymes to
hydrolyze L-pyrrolidonyl- β-napthylamide. A positive result indicates that the organism is either group A
streptococcus and/or group D
enterococcus.
Reverse CAMP The
reverse CAMP test utilizes the synergetic hemolytic abilities of the CAMP factor produced by
Streptococcus agalactiae with the α-toxin produced by
Clostridium perfringens. Streaking these two organisms perpendicular to each other on a blood agar plate will yield a "bow-tie" clearing of the blood agar by the hemolytic capabilities of the two organisms' toxins. Incubation requires 24 hours at 37 °C.
Simmons' citrate agar Simmons' citrate agar is used to test whether an organism can utilize
citrate for its sole carbon source.
Spot indole The spot indole test is used to determine if a microbe can
deaminate tryptophan to produce
indole. This test is performed by saturating a piece of filter paper with Indole Kovacs Reagent and scraping a portion of microbe onto the paper. A color to a pink-red color indicates a positive result while no color change indicates the lack of
tryptophanase.
Sulphide indole motility medium The
sulfide indole motility medium is a three-part test for an organism's ability to reduce sulfates, produce indoles, and motile ability.
TSI slant The
triple sugar iron (TSI) test is a differential media used to tell whether an organism can ferment glucose, sucrose, and/or lactose and whether an organism can produce hydrogen sulfide gas.
Urea agar slant The urease agar slant is used to measure an organism's ability to produce
urease, an enzyme capable to digesting urea in carbon dioxide and ammonia through hydrolysis. Because ammonia is alkaline, the media contains phenol red, an indicator that changes from orange to pink when a pH increases above 8.1. When ammonia is increased to high enough concentrations, the media will change to a pink color, indicating the presence of urease production.
Voges–Proskauer test The
Voges-Proskauer test detects whether a bacterium is producing the product
acetoin from the digestion of glucose. == Cellular fatty acid based identification ==