The meaning of TT reimbursement is telegraphic transfer reimbursement. Often this term will be followed by the world allowed, or not allowed. This alerts you to weather a telegraphic transfer reimbursement is allowed or not.
The meaning of TT reimbursement is telegraphic transfer reimbursement. Often this term will be followed by the world allowed, or not allowed. This alerts you to weather a telegraphic transfer reimbursement is allowed or not.
"TT reimbursement" likely refers to travel and transportation reimbursement, in which an organization reimburses employees for expenses related to work-related travel and transportation. This can include costs such as mileage, lodging, meals, and other travel-related expenses.
The genotypes TT and Tt represent different combinations of alleles for a particular gene. TT is homozygous dominant, meaning it has two identical dominant alleles, while Tt is heterozygous, containing one dominant allele (T) and one recessive allele (t). This difference can affect the expression of traits, with TT typically exhibiting the dominant phenotype and Tt also showing the dominant phenotype, but potentially carrying the recessive trait.
When two alleles differ from each other, such as Tt, it is called heterozygous, hetero meaning different. When alleles are the same (TT) it is called homozygous, homo meaning same.
When a hybrid tall plant (Tt) is crossed with a dwarf plant (tt), the offspring can be predicted using a Punnett square. The possible genotypes for the offspring would be Tt (tall) and tt (dwarf). This results in a 1:1 ratio, meaning that approximately 50% of the offspring are expected to be tall plants (Tt) and 50% will be dwarf plants (tt).
Tt, tt -- novanet :)
The possible offspring outcomes of this cross would be 50% Tt (heterozygous) and 50% tt (homozygous recessive).
rather TT Tt tt
TT Tt tt
Tt X Tt Statistically, 1 TT Homozygous dominant, expresses T. 2 Tt Heterozygous dominant, expresses T. 1 tt Homozygous recessive, expresses t.
The phenotypic ratio for the given genotypes (TT, Tt, TT, Tt) can be determined by identifying the traits represented by these genotypes. In this case, both TT and Tt result in the dominant phenotype, while there are no recessive phenotypes present. Thus, the phenotypic ratio is 4:0, indicating that all offspring display the dominant trait.
Tt, tt -- novanet :)