Search
Filter Results
- Resource Type
- Article1
- Book1
- Book Digital1
- Article Type
- Research Support, U.S. Gov't, Non-P.H.S.1
- Result From
- Lane Catalog1
- PubMed1
-
Year
- Journal Title
- J Virol1
Search Results
Sort by
- BookFan-Gang Zeng, Arthur N. Popper, Richard R. Fay, editors.Contents:
1. Advances in Auditory Prostheses / Fan-Gang Zeng
2. Bilateral Cochlear Implants / Richard van Hoesel
3. Combining Acoustic and Electric Hearing / Christopher W. Turner and Bruce J. Gantz
4. Implantable Hearing Devices for Conductive and Sensorineural Hearing Impairment / Ad Snik
5. Vestibular Implants / Justin S. Golub, James O. Phillips, and Jay T. Rubinstein
6. Optical Stimulation of the Auditory Nerve / Claus-Peter Richter and Agnella Izzo Matic
7. A Penetrating Auditory Nerve Array for Auditory Prosthesis / John C. Middlebrooks and Russell L. Snyder
8. Cochlear Nucleus Auditory Prostheses / Douglas B. McCreery and Steven R. Otto
9. Midbrain Auditory Prostheses / Hubert H. Lim, Minoo Lenarz, and Thomas Lenarz
10. Central Auditory System Development and Plasticity After Cochlear Implantation / Anu Sharma and Michael Dorman
11. Auditory Training for Cochlear Implant Patients / Qian-Jie Fu and John J. Galvin III
12. Spoken and Written Communication Development Following Pediatric Cochlear Implantation / Sophie E. Ambrose, Dianne Hammes-Ganguly, and Laurie S. Eisenberg
13. Music Perception / Hugh McDermott
14. Tonal Languages and Cochlear Implants / Li Xu and Ning Zhou
15. Multisensory Processing in Cochlear Implant Listeners / Pascal Barone and Olivier Deguine.Digital Access Springer 2011 - ArticleBoling ME, Randolph ML.J Virol. 1977 Apr;22(1):47-53.The inactivation of bacteriophage HP1c1 by X rays in a complex medium was found to be exponential, with a D0 (the X-ray exposure necessary to reduce the survival of the phage to 37%) of approximately 90 kR. Analysis of results of sucrose sedimentation of DNA from X-irradiated whole phage showed that the D0 for intactness of single strands was about 105kR, and for intactness of double strands, it was much higher. The D0 for attachment of X-irradiated phage to the host was roughly estimated as about 1,100 kR. Loss of DNA from the phage occurred and was probably due to lysis of the phage by X irradiation, but the significance of the damage is not clear. The production of single-strand breaks approaches the rate of survival loss after X irradiation. However, single-strand breaks produced by UV irradiation, in the presence of H2O2, equivalent to 215 kR of X rays, showed no lethal effect on the phage. Although UV-sensitive mutants of the host cell, Haemophilus influenzae, have been shown to reactivate UV-irradiated phage less than does the wild-type host cell, X-irradiated phage survive equally well on the mutants as on the wild type, a fact suggesting that other repair systems are involved in X-ray repair.