test cross

Examples of test cross in the following topics:

• The Punnett Square Approach for a Monohybrid Cross

  • Called the test cross , this technique is still used by plant and animal breeders.
  • In a test cross, the dominant-expressing organism is crossed with an organism that is homozygous recessive for the same characteristic.
  • The test cross further validates Mendel's postulate that pairs of unit factors segregate equally.
  • A test cross can be performed to determine whether an organism expressing a dominant trait is a homozygote or a heterozygote.
  • This cross produces F1 heterozygotes with a yellow phenotype.

• Typing and Cross-Matching for Transfusions

  • Blood banks test donor blood to ensure recipient compatibility, reducing the risk of hemolytic reaction, renal failure, and death.
  • Due to the different antigen blood types, blood must be cross-matched during processing to avoid potential complications.
  • Much of the routine work of a blood bank involves testing blood from both donors and recipients to ensure that every recipient is given blood that is compatible and is as safe as possible.
  • Several laboratory tests allow cross-matching of compatible blood between donor and recipient.
  • Explain the purposes of typing and of cross-matching blood prior to transfusion

• Agglutination Reactions

  • Agglutination reactions apply to particulate test antigens that have been conjugated to a carrier.
  • The endpoint of the test is the observation of clumps resulting from that antigen-antibody complex formation.
  • If an antigen is present in a test specimen, it will bind to the antibody and form visible, cross-linked aggregates.
  • Agglutination tests are easy to perform and in some cases are the most sensitive tests currently available.
  • These tests have a wide range of applications in the clinical diagnosis of non-infectious immune disorders and infectious disease.

• Testes Ducts

  • Testes ducts, which include the seminiferous tubules and vas deferens, are involved in the creation or transportation of sperm.
  • Seminiferous tubules are located in the testes, and is where meiosis occurs and the gametes (spermatozoa) are created.
  • Seminiferous tubule in cross-section (large tubular structure - center of image) with sperm (black, tiny, ovoid bodies furthest from the outer edge of the tubular structure).
  • Diagram of cross-section of testes: 1: Testicular septa 2: Convoluted seminiferous tubules 3: Testicular lobules 4: Straight seminiferous tubules 5: Efferent ductules 6: Rete testis.

• Diagnostic Blood Tests

  • They are also used in drug tests.
  • Although the term blood test is used, most routine tests (except for most hematology) are done on blood plasma instead of blood cells.
  • For these reasons, blood tests are the most commonly-performed medical tests.
  • While the regular glucose test is taken at a certain point in time, the glucose tolerance test involves repeated testing to determine the rate at which glucose is processed by the body.
  • These tests include: complete blood count, hematocrit (mean corpuscular volume), erythrocyte sedimentation rate (ESR), cross-matching (to determine blood type for transfusion or transplant), and blood cultures (done if infection is suspected).

• Validity and Reliability of Personality Assessments

  • Because of this, objective tests are said to have more validity than projective tests.
  • In contrast to objective tests, projective tests are much more sensitive to the examiner's beliefs.
  • In the Thematic Apperception Test, however, which involves open-ended storytelling, standardization of test administration is virtually nonexistent, making the test relatively low on validity and reliability.
  • For many decades, traditional projective tests have been used in cross-cultural personality assessments.
  • However, it was found that test bias limited their usefulness.

• Two-Way ANOVA

  • The two-way analysis of variance (ANOVA) test is an extension of the one-way ANOVA test that examines the influence of different categorical independent variables on one dependent variable.
  • As with other parametric tests, we make the following assumptions when using two-way ANOVA:
  • We define a factorial design as having fully replicated measures on two or more crossed factors.
  • In a factorial design multiple independent effects are tested simultaneously.
  • All terms require hypothesis tests.

• Structure of a Nerve

  • It prevents certain molecules from crossing from the blood into the endoneurial fluid.
  • The impulses travel from one neuron to another by crossing a synapse, and the message is converted from electrical to chemical and then back to electrical.
  • Neurologists usually diagnose disorders of the nerves by a physical examination, including the testing of reflexes, walking and other directed movements, muscle weakness, proprioception, and the sense of touch.
  • This initial exam can be followed with tests such as nerve conduction study, electromyography, or computed tomography.
  • An illustration of a cross-section of a nerve highlighting the epineurium and perineurium.

• One-to-One Functions

  • An easy way to check if a function is a one-to-one is by graphing it and then performing the horizontal line test.
  • One way to check if the function is one-to-one is to graph the function and perform the horizontal line test.  
  • The graph below shows that it forms a parabola and fails the horizontal line test.
  • Notice it fails the horizontal line test.
  • Because the horizontal line crosses the graph of the function more than once, it fails the horizontal line test and cannot be one-to-one.

• Complementation

  • If, when these strains are crossed with each other, some offspring show recovery of the wild-type phenotype, they are said to show "genetic complementation".
  • A complementation test (sometimes called a "cis-trans" test) refers to this experiment, developed by American geneticist Edward B.
  • The beauty of this test is that the trait can serve as a read-out of gene function even without knowledge of what the gene is doing at a molecular level.
  • Example of a complementation test.
  • Flies from Strain 1 have complementary mutations to flies from Strain 2 because when they are crossed the offspring are able to complete the full metabolic pathway and thus have red eyes.