Concept explainers
It’s in your genes: Hunan genetic material ONA) is made up of sequences of the molecules adenosine (A), guanine (G), cytosine (C), and thymine (T), which are called bases. A codon is a sequence of free bases. Replicates are allowed, so AAA, CGC, and so forth are codons. Codons are important because each codon causes a different protein to be created.
How many different codons are there?
How many different codons are there in which all three bases are different?
The bases A and G are caned purines, C and T are caned pyrimidines. How many different codons are there in which the first base is a purine and the second and third are pyrirnidines?
What is the probability that all three bases are different?
What is the probability that the first base is a purine and the second and third are pyrimidines?
Trending nowThis is a popular solution!
Chapter 5 Solutions
Connect Hosted by ALEKS Online Access for Elementary Statistics
- DNA consists of the four bases: A, C, G, and T. In a particular DNA region of 1000 bases the following counts of each of these bases was observed: A - 208, C - 291, G - 303, T - 198. A geneticist believes that in this region the probability of observing an A is equal to the probability of observing a T, and they are both 0.2. The probability of observing a C is equal to the probability of observing a G, and they are both 0.3. Perform a chi-squared goodness-of-fit test to test the null hypothesis that there is no significant difference between the observed data and the proposed model versus the alternative that the data differs significantly from the proposed model. What is your conclusion at the alpha= 0.1 level and what is the p-value of this test? A)Fail to reject the null hypothesis and the p-value is 0.8872 B)Reject the null hypothesis and the p-value is 0.8872 C)Fail to reject the null hypothesis and the p-value is 8.127 x 10-8…arrow_forwardIn the garden pea, yellow cotyledon color is dominant to green, and inflated pod shape is dominant to the constricted form. Considering both of these traits jointly in self-fertilized dihybrids, the progeny appeared in the following numbers: 197 green, inflated 177 yellow constricted 565 yellow, inflated 52 green, constricted Do these genes assort independently? Genes assort independently (are NOT on the same chromosome and NOT linked) if they follow the 9:3:3:1 rule (on the 16 square Punnett square) resulting from a dihybrid cross. Provide a complete analysis.arrow_forwardA company produces three different products; x,y, and z. For the production of 1 unit of product x, 1 unit of A and 1 unit of B are used as input. 1 unit of A and 2 units of B are used to produce 1 unit of product y. To produce 1 unit of product z, only 1 unit of A is used. The company holds 40 units of A and 20 units of B periodically in total. By the way, the company can not produce product y more than the twice of product z. On the other hand, the sale price of 1 unit of product x is 10 TL, product y is 15 TL and product z is 12 TL. Furthermore, the cost of 1 unit of product x is 8 TL, product y is 9 TL and product z is 7 TL. Solve the above problem by using Simplex Method. Linear Programmingarrow_forward
- ®Gren Az 37 find bescs Ar row A, coLA Ond null A.arrow_forwardA company produces three different products; x,y, and z. For the production of 1 unit of product x, 1 unit of A and 1 unit of B are used as input. 1 unit of A and 2 units of B are used to produce 1 unit of product y. To produce 1 unit of product z, only 1 unit of A is used. The company holds 40 units of A and 20 units of B periodically in total. By the way, the company can not produce product y more than the twice of product z. On the other hand, the sale price of 1 unit of product x is 10 TL, product y is 15 TL and product z is 12 TL. Furthermore, the cost of 1 unit of product x is 8 TL, product y is 9 TL and product z is 7 TL. Solve the above problem by using Simplex Method.arrow_forwardA company produces three different products; x,y, and z. For the production of 1 unit of product x, 1 unit of A and 1 unit of B are used as input. 1 unit of A and 2 units of B are used to produce 1 unit of product y. To produce 1 unit of product z, only 1 unit of A is used. The company holds 40 units of A and 20 units of B periodically in total. By the way, the company can not produce product y more than the twice of product z. On the other hand, the sale price of 1 unit of product x is 10 TL, product y is 15 TL and product z is 12 TL. Furthermore, the cost of 1 unit of product x is 8 TL, product y is 9 TL and product z is 7 TL. According to above information, what should be the company’s optimal product mix to maximize its profit? Construct the problem as a Linear programming model.arrow_forward
- Please help me find the theorom!arrow_forwardIn 6-13, decrypt the first 5 blocks: n = 12423-11524-7243-7459-14303 18923, e = 1261arrow_forwardWe would like to design a linear block code (2,6) using the generator matrix: [100110] G=010111 o01101 What is the codework sequence (i.e. output of the channel encodder) for the data sequence (i.e. input of the channel encoder) 011000101111?arrow_forward
- Algebra & Trigonometry with Analytic GeometryAlgebraISBN:9781133382119Author:SwokowskiPublisher:Cengage