Self Checking
Mostrando 25-29 de 29 artigos, teses e dissertações.
-
25. UM MICROCOMPUTADOR AUTO-DIAGNOSTICÁVEL / A SELF-CHECKING MICROCOMPUTER
The design and realization of a microcomputer for high security level applications is described. Erroneous data transmission may be prevented by: -self - checking circuits -blocking the computer upon detection of a failure. The microcomputer is built around the Intel 8080 microprocessor and has the followinf characteristics: - All the working circuits are te
Publicado em: 1975
-
26. GEL, a DNA sequencing project management system.
We have developed an automated system for management of DNA sequencing projects. The system, named GEL, can handle data from both random sequences and from fragments whose relative positions are known. The system is highly interactive, self-documenting, and forgiving; it is designed for use by computer-naive molecular biologists. An editor designed specifica
-
27. Development of Methodologic Tools for Planning and Managing Library Services: III. Standardized Inventories of Library Services *
A standardized procedure was developed for eliciting those details of a library's service policies that are important to its users and for recording the data by checking appropriate categories on a form. This inventory procedure covers the entire spectrum of user services and accommodates a wide range of policies. The inventory was originally designed for us
-
28. Recruitment of the ArgR/Mcm1p repressor is stimulated by the activator Gcn4p: A self-checking activation mechanism
Transcription of the arginine biosynthetic gene ARG1 is repressed by the ArgR/Mcm1p complex in arginine-replete cells and activated by Gcn4p, a transcription factor induced by starvation for any amino acid. We show that all four subunits of the arginine repressor are recruited to ARG1 by Gcn4p in cells replete with arginine but starved for isoleucine/valine.
National Academy of Sciences.
-
29. Development of an In Vitro Integration Assay for the Bacteroides Conjugative Transposon CTnDOT
Integrated self-transmissible elements called conjugative transposons (CTns) are responsible for the transfer of antibiotic resistance genes in many different species of bacteria. One of the best characterized of these newly recognized elements is the Bacteroides CTn, CTnDOT. CTnDOT is thought to have a circular transfer intermediate that transfers to and in
American Society for Microbiology.