Adolescence is the answer
The percentage of the offspring that will be expected to have the TTYy allele combination is 25%.
A cross or breeding experiment's genotypes can be predicted using the Punnett square, a diagram with squares. This square bears Reginald C. Punnett's name, who created this invention in 1905.
Two heterozygous plant crosses will result:
T T Y y
T TT TT y Yy yy
t Tt Tt y Yy yy
The ratio of TT = 1/2 The ratio of Yy = 1/2
The total ratio of TTYy is 1/2 x 1/2 = 1/4 = 25%.
Therefore, 25% of the progeny should carry the TTYy allele combination, according to expectations. The offspring produced is heterozygous.
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Answer:
1/4 in fraction and 25% in percentage
Explanation:
Answer:
striations
Explanation:
Cardiac muscles are present in the wall of the heart. These muscles have uninucleated, tubular and branched fibers. The fibers of cardiac muscles are striated and have the intercalated disc to spread the contraction quickly throughout the heart.
Skeletal muscle fibers are tubular and multinucleated. These muscle fibers also have striations. Skeletal muscles are attached to the skeleton. Arrangement of actin and myosin in these muscle fibers given them the striated appearance.
The feature that cardiac muscle and skeletal muscle share is the presence of striations, which are a result of the specific arrangement of protein filaments within the cells of muscle tissue.
The feature shared by both cardiac muscle and skeletal muscle is the presence of striations.
These striations are a result of a specific arrangement of protein filaments (actin and myosin) within the cells of muscle tissue, which gives them their striped appearance under a microscope. Both skeletal and cardiac muscle cells exhibit this striated pattern, unlike smooth muscle cells.
For instance, Cardiac muscle cells, also known as cardiomyocytes, appear striated under the microscope. Similarly, skeletal muscle fibers also exhibit striations, contributing to their different functionalities within the body.
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Answer;
Domains
Explanation;
Domain is the largest group of classification that is used to classify organisms.
It is a taxonomic category above the kingdom level.
There are three domains, which are; domain Bacteria, domain Archaea, and domain Eukarya, which are the major categories of life.
The level of classification that contains all the others is the Kingdom level. In the Linnaean system of classification, organisms are grouped into different levels called taxa.
The hierarchical levels of classification, from broadest to most specific, are: Kingdom, Phylum, Class, Order, Family, Genus, and Species.
The Kingdom level is the highest and broadest level of classification. It represents the largest category and encompasses a wide range of organisms with shared characteristics. Organisms within the same Kingdom share fundamental characteristics and basic cellular structures. The Kingdom level is further divided into more specific categories, such as Phylum, Class, and so on, as we move down the classification hierarchy.
For example, in the case of animals, the Kingdom level is Animalia, which includes all animals.
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The new discovered organism belongs to Kingdom Fungi.
Characteristics of Fungi:
Hence, the organism would be classified in Kingdom Fungi.
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