249,653 research outputs found
Kuo-2014-Genetics-Fig3
No full textThese primary data are summarized and discussed in Kuo et al., Genetics (2014).
Data in this file are from the P{wa} assay, first published in Adams et al., Science (2002), DOI: 10.1126/science.1077198 .
The first tab has counts of progeny from each vial. As in other uses of this assay, only daughters that did not recieve the transposase
chromosome (Cy+) were scored. Since the Df(3R)ED6058 chromosome has w+ on it, only progeny that recieved a Sbchromosome were scored.
f red = frequency of red-eyed flies
f yellow = frequency of yellow-eyed flies
The last tab has molecular analysis of synthesis and/or deletion in the yellow-eyed daughters. Each row represents presence (+) or absence (-)
of a PCR product in white-eyed sons of yellow-eyed progeny. Each yellow-eyed progeny came from a different vials (f numbers are Fancm,
c numbers are control). Distance of furthers primer from left or right end of the element is indicated. Primers used are listed
Erratum to: Effect of moderate red wine intake on cardiac prognosis after recent acute myocardial infarction of subjects with Type 2 diabetes mellitus (Diabetic Medicine, (2006), 23, 9, (974-981), 10.1111/j.1464-5491.2006.01886.x)
No full textIn an article by Marfella et al, the author name C. Saron is incorrect and should be listed as C. Sardu. Therefore the correct author list is: R. Marfella, F. Cacciapuoti, M. Siniscalchi, F. C. Sasso, F. Marchese, F. Cinone, E. Musacchio, M. A. Marfella, L. Ruggiero, G. Chiorazzo, D. Liberti, G. Chiorazzo, G. F. Nicoletti, C. Sardu, F. D'Andrea, C. Ammendola, M. Verza and L. Coppola.In an article by Marfella et al, the author name C. Saron is incorrect and should be listed as C. Sardu. Therefore the correct author list is: R. Marfella, F. Cacciapuoti, M. Siniscalchi, F. C. Sasso, F. Marchese, F. Cinone, E. Musacchio, M. A. Marfella, L. Ruggiero, G. Chiorazzo, D. Liberti, G. Chiorazzo, G. F. Nicoletti, C. Sardu, F. D'Andrea, C. Ammendola, M. Verza and L. Coppola
Symbol-Flipping Based Decoding of Generalized Low-Density Parity-Check Coded Constructed over GF(q)
No full textAn efficient symbol-flipping based decoding algorithm designed for nonbinary Generalized Low-Density Parity-Check (GLDPC) codes is proposed. By extending the concept of the Weighted Bit Flip Voting (WBFV) algorithm designed for binary Hamming-code based GLDPC codes, the symbol-flipping decoding algorithm can be beneficially employed for decoding the family of GLDPC codes constructed from nonbinary constituent codes, such as nonbinary Bose Chaudhuri Hocquenghem (BCH) codes or Reed Solomon (RS) codes. The simulation results demonstrate that improvements of 1 dB and 2.7 dB are achieved by the proposed coding scheme in comparison to the more conventional binary GLDPC codes using the WBFV decoding algorithm, when using the Galois Field GF(32) for communicating over AWGN and uncorrelated Rayleigh fading channels, respectively
On the relative Kuo condition and the second relative Kuo condition
No full textInternational audienceThe Kuo condition and the second Kuo condition are known as criteria for an r-jet to be V-sufficient in C-r mappings and Cr+1 mappings, respectively. In [2] we considered the notions of V-sufficiency of jets and these Kuo conditions in the relative case to a given closed set Sigma, and showed that the relative Kuo condition is a criterion for a relative r-jet to be Sigma-V-sufficient in C-r mappings and the second relative Kuo condition is a sufficient condition for a relative r-jet to be Sigma-V-sufficient in Cr+1 mappings. In this paper we discuss several conditions equivalent to the relative Kuo condition or the second relative Kuo condition. (c) 2021 Elsevier B.V. All rights reserved
A systematic approach to reliable multistage interconnection network design
Full text linkBibliography: p. 34-35.Army Research Office grant no. DAAG29-84-K-0005 Advanced Research Projects Agency monitored by ONR, contract N00014-81-K-0742C.-C. Jay Kuo
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