the dominant trait
A dominate trait.
dominent
phenotype
Phenotype
A trait like this must be homozygous dominate.
Each parent contributes 23 to each offspring. 23+23=46.
Wow, many different aspects to look at here. One big one is if it is in every generation or not. If so, then you have a dominant mutation that will show in every individual with an allele for that gene. If it seems to skip generations then you have a recessive mutation. Basically to answer this question you need to look at your family tree and determine what is going on and if every generation has it, they will have it. If your generation has it, they won't.
Advantage: Asexual reproduction can quickly result in large numbers of offspring. Disadvantage: Asexual reproduced offspring generally identical - so they will respond to their environment in the same way.
Heredity material is the genes which are made up of DNA. The passage of genes from parent to offspring results in the genetic make up of every cell in the human body. The genes determine the traits of an organism.
A trait like this must be homozygous dominate.
Recombining of genetic information (crossing over) during prophase I of meiosis results in every chromosome being a combination of the person's mother's and father's genetic information. Recombination of genetic information in an offspring takes place at the time of gametic union forming the zygote. The genetic variability depends on the extent of heterozygocity present in the population of that species. Role of crossing over is limited to the extent of frequency of genes present in an individual to produce variety of gametes.
all offspring in every generation will have the same characteristics of parent plants
Simple inherited traits are passed down because each parent contains genes which are given to their offspring. The offspring inherits or receives these traits. The offspring then passes down those traits to their offspring. Each time there is a new generation, the original trait becomes less evident. The recessive traits decrease by a certain percent every time a new set of genes are added.
Each parent contributes 23 to each offspring. 23+23=46.
Wow, many different aspects to look at here. One big one is if it is in every generation or not. If so, then you have a dominant mutation that will show in every individual with an allele for that gene. If it seems to skip generations then you have a recessive mutation. Basically to answer this question you need to look at your family tree and determine what is going on and if every generation has it, they will have it. If your generation has it, they won't.
every year
Every generation except for the first generation
organism that produces the same traits in every generation?
No, the miniature poodle is a pedigree breed that was bred from the standard. From each litter of standards, people took the smallest members and bred those together, and repeated this every generation. Because the larger members of the generation were not bred, it meant the genes for larger poodles were slowly bred out of the gene pool, making the average offspring's size smaller each generation.
Advantage: Asexual reproduction can quickly result in large numbers of offspring. Disadvantage: Asexual reproduced offspring generally identical - so they will respond to their environment in the same way.
Genes and chromosomes.