They may be called several things. They could be called Chromosomes (however these are when the genetic information has been aggregated into bodies (usually resembling an X). It can be called DNA (meaning deoxyribonucleic acid) which is the long strand of information made of up base pairs which resembles a twisted ladder. A small segment of that ladder which produces only one protein may be called a Gene. (from whence we get the term genetics).
When DNA is being used to make pieces of the cell and produce stuff in genera, it is transcoded into RNA (Ribonucleic Acid) which is a temporary form of the genetic information which can be taken from the nucleus of the cell where the DNA is stored and turned into protein elsewhere. This form of RNA is known as Messenger (m)RNA.
containing genetic information: Chromatin condenses to form chromosomes. These distinct, threadlike structures contain the genetic information or DNA.
the information transfer from generation to generation is through DNA molecules.the genetic information present in the DNA.and the DNA is present in the gene cells.these transfer the information from cell to cell
distinct_nodes is a feature of XQuery, returning all the distinct nodes that match the criteria.
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Inquire to your colleges about the best suited place for you to return to earn your degree. Renewable Energy may have a distinct place in a distinct school.
To avoid interference
chromosomes
Threadlike coils of chromosomes are called chromatin, which is composed of DNA and associated proteins. Chromatin undergoes further condensation during cell division to form distinct chromosomes. The chromosomes contain the genetic material necessary for cell functions and are essential for the accurate transmission of genetic information to daughter cells.
The medical term for a new connection between two normally distinct structures is an "anastomosis." This surgical technique is often used to restore blood flow, bypass obstructions, or reconnect severed structures in the body.
Chromosomes
Deeply processed elaboration refers to the extent to which information is deeply understood and processed when learning. Distinctiveness refers to how unique or different the new information is from existing knowledge. When information is deeply processed and distinct, it is more likely to be remembered and integrated into existing knowledge structures.
It takes exactly 2 distinct points to uniquely define a line, i.e. for any two distinct points, there is a unique line containing them.
Discrete structures refer to mathematical concepts that deal with distinct and separate objects rather than continuous quantities. This area of mathematics includes topics such as graph theory, combinatorics, logic, set theory, and algorithms, which are fundamental in computer science and information technology. Discrete structures are essential for understanding the underlying principles of data structures, databases, and programming languages. They provide the tools needed for analyzing and solving problems where discrete data is involved.
Actin and microtubules are distinct structures within the cell. Actin is a protein that forms thin filaments, while microtubules are made of tubulin proteins and form a network of hollow tubes. Both actin and microtubules play important roles in cell structure and movement.
Polysaccharides are polymeric carbohydrate structures, formed of repeating units (either mono- or di-saccharides) joined together by glycosidic bonds. These structures are often linear, but may contain various degrees of branching. Polysaccharides are often quite heterogeneous, containing slight modifications of the repeating unit. Depending on the structure, these macromolecules can have distinct properties from their monosaccharide building blocks. They may be amorphous or even insoluble in water.
In histology, inclusion refers to any distinct intracellular or extracellular structures or substances that are present in the tissue. These inclusions may include pigment granules, lipid droplets, or crystals, among others, and can provide important information about the metabolic or pathological status of the tissue.
a CD that you store important information on (As distinct from a music CD)
Yes, proteins can have separate domains with distinct structures and functions. These domains often contribute to different aspects of the protein's overall function, such as binding to other molecules, enzymatic activity, or signaling pathways. The modular nature of domain organization allows proteins to have diverse functional capabilities.