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. 2018 Feb 8;47(2):484–497. doi: 10.1093/ee/nvx207

Table 1.

Three common models used for interaction testing and interpretation of additivity of insecticidal proteins

Model Assumptions/requirements Model use/interpretation Experimental
Strengths Challenges Strengths Challenges
CAa Proteins have the same MoA
Dose–response has same upper threshold and same slope
A single relative potency factor applies for comparison of the dose-response of any two agents
Conservative from an ERA standpoint
Can be designed to assess doses in the active range
MoA may not always be a priori clearly defined/ established
Well-established, full dose– response data of a similar shape are prerequisite
Any uniform ratio of the combined agents could be selected for a given dose–response dataset Requires full set of dose–responses to generate comparison parameter (e.g., LC50)
RAb Proteins have different MoA
Dose–response has same upper threshold
Doses selected must have a measurable effect when each agent is presented alone
The most conservative from an ERA standpoint
By default, the design assesses doses in the active range
MoA may not always be a priori clearly defined/ established
Have to avoid testing at a sublethal dose
Minimal dose requirements (e.g., can work with as few as 1 or 2 selected doses) Requires parallel testing of individual agents at same selected dose(s)
Empiricalc One (or more) of the agents to be tested has no toxicity to the test organism No direct relation to MoA interpretations
No need to calculate an expected response (e.g., default expectation for one agent is zero activity)
If the agents act against the same target pest, establishing a nominal sublethal dose to use can be difficult Minimal dose requirements (e.g., can work with as few as 1 or 2 selected doses) May require a larger dataset for robust statistical analysis

aAlso known as dose addition, simple similar action, similar joint action, or Loewe additivity.

bAlso known as independent joint action, independent action, Bliss independence, or effect additivity.

cAlso known as simple empirical or simple statistical test.