Reacts with
Human
ELISA type
competitive
Assay sensitivity
1.0pg per ml
Detection range
250-5000pg per ml
Goup
reverse transcription
Antigen
Reverse Tri iodothyronine
Original name
Human Reverse Tri iodothyronine ELISA kit
Test
BlueGen ELISAs supplies other types of Assays as 1.ELISA Enzyme-linked immunosorbent assays Code 90320007 SNOMED
Reproducibility of the results
Intra-Assay: Coefficient of variability is lower than 10%; Inter-Assay: Coefficient of variability is lower than 15%
Tips
The product Assay kit for human Reverse Tri iodothyronine (ELISA) is intended to be used for research purposes only. It is not testesd for application in diagnostics.
Cross reactivity
There is no indicative cross reactivity between the antigen and its analogues detected during the testing of the product Assay kit for human Reverse Tri iodothyronine (ELISA)
Product storage
The product Assay kit for human Reverse Tri iodothyronine (ELISA) should be kept between two and eight degrees Celsius to ensure the retention of the stability and reactivity of the reagents included in the kit.
Kit configuration
1xMicrotiter test plate; 1 vial x Enzyme conjugate; 1 vial x STANDARD A; 1 vial x STANDARD B; 1 vial x STANDARD C; 1 vial x STANDARD D; 1 vial x STANDARD E; 1 vial x STANDARD F; 1 vial x SUBSTRATE A; 1 vial x SUBSTRATE B; 1 vial x Stop solution; 1 vial x Wash solution (100x); 1 vial x Balance solution; 1 x protocol
Properties
E05 478 566 350 170 or Enzyme-Linked Immunosorbent Assays,Human proteins, cDNA and human recombinants are used in human reactive ELISA kits and to produce anti-human mono and polyclonal antibodies. Modern humans (Homo sapiens, primarily ssp. Homo sapiens sapiens). Depending on the epitopes used human ELISA kits can be cross reactive to many other species. Mainly analyzed are human serum, plasma, urine, saliva, human cell culture supernatants and biological samples.
Description
Reverse transcription primers are used in PCR but in vivo reverse transcription begins when the viral particle that enters the cytoplasm of a target cell with its reverse transcriptase. The viral RNA genome enters the cytoplasm as part of a nucleoprotein complex that has not been well characterized. The process of reverse transcription generates, in the cytoplasm, a linear DNA via an intricate series of steps. This DNA is collinear with its RNA template, but it contains terminal duplications known as the long terminal repeats (LTRs) that are not present in viral RNA . Extant models for reverse transcription propose that two specialized template switches known as strand-transfer reactions or “jumps” are required to generate the LTRs.