The flow chart below indicates the hierarchical levels of the Linnaean classification system.
Organism A, Organism B, and Organism C are all classified within the Phylum Chordata. Organism A and Organism B can be further classified into Class Mammalia. Organism C, on the other hand, can be further classified into Class Aves.
Which of the following is most likely true about the organisms discussed in the paragraph above?
A.
Organism A, Organism B, and Organism C all have the exact same structural and behavioral characteristics.
B.
Organism A, Organism B, and Organism C do not share any structural characteristics with one another.
C.
Organism B and Organism C share more behavioral characteristics with one another than they do with Organism A.
D.
Organism A and Organism B share more structural characteristics with one another
I need help w it pls someone answer
SCOP typically means Standing Conference of Principals of Colleges. In addition to this SCOP can mean Structural Classification of Proteins. One can find acronyms definitions via the official Acronyms website.
A complex structural organization is an essential characteristic of a living organism
structual
ikr
microtubules
Some disadvantages of the hierarchical database model include complexity in representing certain types of relationships, limited flexibility in querying data due to its rigid structure, and potential data redundancy issues as each child can only have one parent record.
Diarthroses
Structural, behavioral, physical
Biopolar multipolar unipolar
I believe it is a "Key in a lock" formation
Melanin is a pigment produced in specialized cells called melanocytes. The classification of melanin falls under the molecular level of structural organization as it is made up of complex molecules that impart color to skin, hair, and eyes.
Evolutionary Relationship
Releases cytotoxic enzymes
structural
Linnaeus based most of his classification system on physical characteristics and reproductive structures of organisms. He classified organisms into hierarchical groups based on similarities in these features, leading to the development of the modern system of taxonomy.
amino acid sequence
system of classification using structural characterisistcs