Abstract
The nucleic acid sequence is an astonishing and a complicated coding system that is capable of producing a complete human body with of its molecules, cells, tissue and organs. Nucleic acid has been used in many fields of sciences for the preservation and encoding of different types of information. The current project describes the use of a computerized numerical control device to form 3D geometric shapes from nucleic acid sequences. The device employs dynamic algorithms to store and then identify the strings of letters of the nucleic acid sequence, transforming them into trigonometric matrices of continues triangular codes and ultimately translating each one of matrix codes into points in 3D space to construct three-dimensional geometric shapes. This method is useful for storing architectural design and blueprints, as well as, helping to establish a standardized coding technology for 3D printing devices.
Highlights
The nucleic acid sequence is an astonishing and a complicated coding system that is capable of producing a complete human body with of its molecules, cells, tissue and organs
Since the discovery and subsequent description of the nature of the DNA sequence [1, 2], many molecular biologists were intrigued to understand the ability of a particular DNA sequence to produce a functional protein with a unique 3D structure [3, 4]
Through scientific developments and the introduction of 3D printing technology, other scientists were able to demonstrate the successful transformation of nucleic acid sequences into a transferable and reproducible shapes [8, 9]
Summary
The nucleic acid sequence is an astonishing and a complicated coding system that is capable of producing a complete human body with of its molecules, cells, tissue and organs. DNA has been used in the preservation and encoding of multiple types of information, ranging from ordinary personal computer files with any extensions [12], to digital productions files aimed for long-term storage [13] This recent biotechnological science has been considered recently as a new area and has occupied the scientist concern on how to use DNA for storing and encrypting information and data with a standardized format that can be widely distributed in larger scales across the biotechnology industry [14,15,16]
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