jayjay9434
04.02.2020 •
Biology
What are all possible gametes that can be produced by an individual with the genotype ffgg
Solved
Show answers
More tips
- L Legal consultation What Documents Are Required for a Russian Passport?...
- S Sport How to Choose Tennis Rackets?...
- H Health and Medicine AKDS Vaccination: Ensure Your Child s Safety...
- H Health and Medicine Naskol ko Opasen Ukus Kleshcha i Kak Ego Raspoznat...
- C Computers and Internet How to Delete Your Account on Odnoklassniki...
- H Health and Medicine What to Do When Your Jaw Locks Up?...
- G Goods and services What Are the Most Popular Services?...
- P Philosophy How did the concept of module arise in computer science?...
Answers on questions: Biology
- W World Languages Anyone can join my zom any boy or girl can just com join if you want to. Meeting ID: 523 121 0760 Passcode: 0CHTAZ...
- M Mathematics Select all the correct locations on the table....
- H History When were market days in the Middle Ages? monthly weekly daily yearly...
- E English What example of overgeneralization is used in paragraph 1 of “Ban the Ban!...
- H History Match each word to its appropriate definition. 1. naturalization 2. birthright 3. acquisition 4. parental acquiring citizenship by being born in a region receiving...
Ответ:
Possible Gametes: FG, Fg, FG, Fg
Explanation:
FFGg
F->G
F->g
F->G
F->g
Ответ:
All possible gametes are FG and Fg.
Explanation:
The individual in a given question has genotype FFGg. It is obvious from the individual’s genotype that it has one pair of contrasting alleles. Since gametes are haploid cells produced as a result of meiosis in the germ or reproductive cells. Each gamete carries only one copy of each chromosome. Thus, in this case, two types of gametes, having alleles FG and Fg will be produced.
Ответ:
Gel electrophoresis is a technique used to separate DNA fragments according to their size. DNA fragments are negatively charged, so they move towards the positive electrode. Because all DNA fragments have the same amount of charge per mass, small fragments move through the gel faster than large ones.