5,979 research outputs found
Database for: Excavations at Tall Jawa, Jordan: Volume 3, The Iron Age Pottery
This is a Microsoft Access database of imagery, drawings, and photos accompanying Excavations at Tall Jawa, Jordan: Volume 3, The Iron Age Pottery by P.M. Michèle Daviau. The text and database present a detailed typology of the Iron Age pottery excavated from 1989 to 1995. Together, they represent an in-depth analysis of the forming techniques employed to make each type of vessel from bowls to colanders, cooking pots to pithoi.
The digital archive is a work in progress by the author. The archive currently holds the collection for Excavation Field D. Upon completion, it will include seven collections, each one consisting of a database of diagnostic sherds and vessels as well as the images of these pots as .tiff files. Databases are related to excavation fields and are designed for meaningful searches: A, B, C-east, C-west, A-east (associated with C-west), D and E
Copper Fractionation In Proteins From Plasma, Muscle And Liver Of Nile Tilapia [fracionamento De Cobre Em Proteínas Do Plasma, Músculo E Fígado De Tilápia Do Nilo]
Copper fractionation in plasma, muscle and liver of Nile tilapia was performed after protein separation by 2D-PAGE. SR XRF analysis indicated the presence of copper in three protein spots of plasma, and in two protein spots of muscle and liver, respectively. Copper ions were found to be distributed mostly in proteins that had a molar mass of less than 54 kDa and greater than 13 kDa and a pI in the 5.3-9.3 range. The copper concentration bound to these proteins was determined by GFAAS which showed concentrations in the 1.20-4.82 mg g -1 range.353493498Knox, D., Cowey, C.B., Adron, J.W., (1982) Aquaculture, 27, p. 111Gatlin, D.M., Wilson, P.W., (1986) Aquaculture, 52, p. 191Neves, R.C.F., Moraes, P.M., Silva, F.A., Loureiro, V.R., Saleh, M.A.D., Padilha, C.C.F., Barros, M.M., Padilha, P.M., (2008) Sens. Instrumen. Food Qual., 2, p. 274Neves, R.C.F., Moraes, P.M., Saleh, M.A.D., Loureiro, V.R., Silva, F.A., Barros, M.M., Padilha, C.C.F., Padilha, P.M., (2009) Food Chem., 113, p. 679Sá, M.V.C., Pezzato, L.E., Barros, M.M., Padilha, P.M., (2004) Aquaculture, 238, p. 385Sá, M.V.C., Pezzato, L.E., Barros, M.M., Padilha, P.M., (2005) Aquac. Nutr., 11, p. 273Silva, F.A., Neves, R.C.F., Quintero-Pinto, L.G., Padilha, C.C.F., Jorge, S.M.A., Barros, M.M., Pezzato, L.E., Padilha, P.M., (2007) Chemosphere, 68, p. 1542Loureiro, V.R., Saleh, M.A.D., Moraes, P.M., Neves, R.C.F., Padilha, C.C.F., Padilha, P.M., (2007) J. Braz. Chem. Soc., 18, p. 1235Silva, F.A., Padilha, C.C.F., Pezzato, L.E., Barros, M.M., Padilha, P.M., (2006) Talanta, 69, p. 1025Haraguchi, H., (2004) J. Anal. At. Spectrom., 19, p. 5Szpunar, P., (2004) Anal. Bioanal. Chem., 378, p. 54Gòmez-Ariza, J.L., Garcia-Barrera, T., Lorenzo, F., Bernal, V., Villegas, M.J., Oliveira, V., (2004) Anal. Chim. Acta, 524, p. 15Garcia, J.S., Magalhães, C.S., Arruda, M.A.Z., (2006) Talanta, 69, p. 1Lima, P.M., Neves, R.C.F., Santos, F.A., Pérez, C.A., Silva, M.A.O., Arruda, M.A.Z., Castro, G.R., Padilha, P.M., (2010) Talanta, 82, p. 1056Santos, F.A., Lima, P.M., Neves, R.C.F., Moraes, P.M., Pérez, C.A., Silva, M.A.O., Arruda, M.A.Z., Padilha, P.M., (2011) Microchim. Acta, 173, p. 49Hames, B.D., Rickwood, D., (1990) Gel Electrophoresis of Proteins: A Practical Approach, p. 383. , 2nd ed., IRL Press: New YorkBerkelman, T., Stenstedt, T., (1998) 2-D Electrophoresis: Principles and Methods, p. 101. , Amersham Biosciences: UppsalaLanças, F.M., Silva, J.C.R., Bicudo, R.C., Neto, M.B., (2003) Analytica, 6, p. 60Bradford, M.M., (1976) Anal. Biochem., 72, p. 248Candiano, G., Bruschi, M., Musante, L., Santucci, L., Ghiggeri, G.M., Carnemolla, B., Orecchia, P., Righetti, P.G., (2004) Electrophoresis, 25, p. 1327Weseloh, G., Kuhbacher, M., Bertelsmann, H., Ozaslan, M., Kyriakopoulos, A., Knochel, A., Behne, D., (2004) J. Radioanal. Nuclear Chem., 259, p. 473Saleh, M.A.D., Neves, R.C.F., Silva, F.A., Moraes, P.M., Loureiro, V.R., Roldan, P.S., Padilha, P.M., (2009) Food Anal. Meth., 2, p. 162Garcia, J.S., Sousa, G.H.M.F., Eberlin, M.N., Arruda, M.A.Z., (2009) Metallomics, 1, p. 107Verbi, F.M., Arruda, S.C.C., Rodríguez, A.P.M., Pérez, C.A., Arruda, M.A.Z., (2005) J. Biochem. Biophys. Meth., 62, p. 97Sussulini, A., Garcia, J.S., Mesko, M.F., Moraes, D.P., Flores, E.M., Pérez, C.A., Arruda, M.A.Z., (2007) Microchim. Acta, 158, p. 173Wind, M., Lehamann, W.D., (2004) J. Anal. At. Spectrom., 19, p. 20Padilha, C.C.F., Moraes, P.M., Garcia, L.A., Pozzi, C.M.C., Lima, G.P.P., Valente, J.P.S., Jorge, S.M.A., Padilha, P.M., (2011) Food Anal. Meth., 4, p. 32
Elogio fúnebre del Rmo P.M. Fr. Francisco Xavier Vázquez de Sandoval y Romero ... pronunciado en las exequias que le hizo su Provincia de Lima en 1. de junio de M.DCC.LXXXVI:
"Relacion de las exequias que a la memoria del Rmo. P.M. Fr. Francisco Xavier Vazquez ... celebró la Provincia del Perú ... escribela ... Bernardo Rueda ...": xxxii p. at end.Medina, La imprenta en Lima,Mode of access: Internet
IoWoman, March/April 2004, Vol. 34, no. 2
Newsletter for the Iowa Commission on the Status of Wome
IoWoman, March/April 2004, Vol.34, no.2
Newsletter for the Iowa Commission on the Status of Wome
EEG focal abnormalities in P.M. epilepsy
Thirty one patients with P.M. epileptic crisis whose EEG showed centrencephalic disrythmia secondary to focal irritating activity where thoroughly observed. 19% of the cases showed centroencephalic disrythmia secondary to deeply situated focus and 8% to focus of cortical situation; in these cases the temporal projection was predominant. The clinical type of the crisis was analysed with emphasis on the fact that 8 patients did not show a sheer P.M. type crisis (absence): 4 showed mioclonic P.M. and 4 akynetic P.M. The high incidency of personal antecedents (33%) is emphasized.Foram estudados 31 pacientes com crises clínicas tipo P.M. cujos eletrencefalogramas revelaram disritmia centrencefálica secundária a atividade irritativa focal. A sua freqüência entre as disritmias centrencefálicas foi de 27% (19% secundárias a foco de localização profunda e 8% secundárias a foco de localização cortical). O tipo clínico das crises foi analizado, sendo ressaltado o fato de que 8 pacientes não apresentaram crise tipo P.M. puro (ausência): 4 apresentaram P.M. mioclônico e 4 P.M. acinético. A alta incidência de antecedentes pessoais de valor (33%) foi enfatizada.Escola Paulista de Medicina Departamento de Neurologia e NeurocirurgiaEscola Paulista de Medicina Departamento de NeurologiaUNIFESP, EPM, Depto. de Neurologia e NeurocirurgiaEscola Paulista de Medicina Depto. de NeurologiaSciEL
Selenium Fractionation From Plasma, Muscle And Liver Of Nile Tilapia (oreochromis Niloticus)
This paper presents the results obtained from selenium fractionation in plasma, muscle and liver samples of Nile tilapia's (Oreochromis niloticus) after protein separation. The plasma, muscle and liver proteome was obtained by 2D-PAGE, and selenium in protein spots was qualitatively and quantitatively determined by synchrotron radiation X-ray fluorescence and graphite furnace atomic absorption spectrometry (GFAAS). The fluorescence spectra indicated the presence of selenium in three protein spots of plasma, two of muscle and one of liver. Selenium was found to be distributed mainly in proteins with a molar mass smaller than 57.0 kDa and with pI in the range of 5.9-9.6, with one exception in the plasma sample, which presented protein with a molar mass of 60.0 kDa. After acid mineralization of the protein spots, a GFAAS determination of the concentration of selenium bound to these proteins indicated a range of 1.35-6.82 mg per g of protein. © 2013 Springer Science+Business Media New York.74158165Voet, D., Voet, J.G., Pratt, C.W., (2002) Fundamentals of Biochemistry, Upgrade Edition (Wiley, New YorkFenton, D.E., (1995) Biocoordination Chemistry, , New York: Oxford Chemistry PrimersGarcia, J.S., Magalhães, C.S., Arruda, M.A.Z., (2006) Talanta, 69, p. 15Gao, Y., Chen, C., Zhang, P., Chai, Z., He, W., Huang, Y., (2003) Anal. Chim. Acta, 485, p. 137Arnesano, F., Banci, L., Bertini, I., Capozzi, F., Ciofi-Baffoni, S., Ciurli, S., Luchinat, C., Viezzoli, M.S., (2006) Coord. Chem. Rev., 250, p. 1450Behne, D., Kyriakopoulos, A., Mammalian selenium-containing proteins (2001) Annu. Rev. Nutr., 21, p. 453Kyriakopoulos, A., Bertelsmann, H., Graebert, A., Hoppe, B., Kuhbacher, M., Behne, D., (2002) J. Trace Elem. Med. Biol., 16, p. 62Watanabe, T., Kiron, V., Satoh, S., (1997) Aquaculture, 151, p. 207Lovell, R.T., (1998) Nutrition and Feeding of Fish, , 2nd edn., Cambridge: KluwerAmweg, E.L., Stuart, D.L., Weston, D.P., (2003) Aquat. Toxicol., 63, p. 25Haraguchi, H., (2004) J. Anal. At. Spectrom., 19, p. 5Szpunar, P., (2004) Anal. Bioanal. Chem., 378, p. 54Mounicou, S., Szpunar, J., Lobinski, R., (2009) Chem. Soc. Rev., 38, p. 1138Silva, F.A., Padilha, C.C.C., de Castro, G.R., Roldan, P.S., Nogueira, A.R.A., Moraes, P.M., Padilha, P.M., (2011) Cent. Eur. J. Chem., 9 (1), p. 119Lima, P.M., Neves, R.C.F., Santos, F.A., Pérez, C.A., Silva, M.O.A., Arruda, M.A.Z., Castro, G.R., Padilha, P.M., (2010) Talanta, 82, p. 1052Santos, F.A., Lima, P.M., Neves, R.C.F., Moraes, P.M., Pérez, C.A., Silva, M.A.O., Arruda, M.A.Z., Padilha, P.M., (2011) Microchim. Acta, 173, p. 43Sá, M.V.C., Pezzato, L.E., Barros, M.M., Padilha, P.M., (2005) Aquac. Nutr., 11 (4), p. 273Hames, B.D., Rickwood, D., (1990) Gel Electrophoresis of Proteins: A Practical Approach, , 2nd edn., New York: IRL PressBradford, M.M., (1976) Anal. Biochem., 72, p. 254Doumas, B.T., Bayse, D.B., Borner, K., Carter, R.J., (1981) Clin. Chem., 2, p. 1654Berkelman, T., Stenstedt, T., (1998) 2-D Electrophoresis: Principles and Methods, , 1st edn., Uppsala: Amersham BiosciencesCandiano, G., Bruschi, M., Musante, L., Santucci, L., Ghiggeri, G.M., Carnemolla, B., Orecchia, P., Righetti, P.G., (2004) Electrophoresis, 25, p. 1333Garcia, J.S., Sousa, G.H.F., Eberlin, M.N., Arruda, M.A.Z., (2009) Metallomics, 1, p. 113Verbi, F.M., Arruda, S.C.C., Rodríguez, A.P.M., Pérez, C.A., Arruda, M.A.Z., (2005) J. Biochem. Biophys. Methods, 62, p. 109Silva, F.A., Neves, R.C.F., Quintero-Pinto, L.G., Padilha, C.C.F., Jorge, S.M.A., Barros, M.M., Pezzato, L.E., Padilha, P.M., (2007) Chemosphere, 68, p. 1547Weseloh, G., Kuhbacher, M., Bertelsmann, H., Ozaslan, M., Kyriakopoulos, A., Knochel, A., Behne, D., (2004) J. Radioanal. Nucl. Chem., 259, p. 478Sussulini, A., Garcia, J.S., Mesko, M.F., Moraes, D.P., Flores, E.M., Perez, C.A., Arruda, M.A.Z., (2007) Microchim. Acta, 158, p. 180Pearson, R.G., (1963) J. Am. Chem. Soc., 85, p. 353
Old Fashioned Ice Cream Social at the U of M, Crookston Features Author Gayla Marty on Wed., Aug. 18, 2010, from 2-4 p.m.
Tollefson, Elizabeth. (2010). Old Fashioned Ice Cream Social at the U of M, Crookston Features Author Gayla Marty on Wed., Aug. 18, 2010, from 2-4 p.m.. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/222491
Our Mission and our Values' : an approach to Russian Banks' Communication Strategies
This paper looks at the mission statements of Russian banks posted on their websites with the aim of identifying recurrent discursive strategies in an intercultural perspective. Starting from the surveyof twenty websites of Russian banks, the author attempts to highlight the linguistic and visual treatment of mission and value statements, where there seems to emergean interesting mix of both "globalized" and local, culture-specific, features
Criticalities in applying the Neyman’s optimality in business surveys : a comparison of selected allocation methods
In finite population sampling, when dealing with negligible sampling fractions (budget
constraints) or when data quality is not satisfactory (e.g. frame lists, auxiliary information,
etc.), a rethinking of Tchuprow’s (1924) optimality concept (later extended by Neyman, 1934)
in stratified sampling is needed. In fact, the need of stratum representativeness from one side
and the optimum allocation from the other are often in conflict. Furthermore, the choice of a
sampling design which is rigorously respectful of the statistical theory is a difficult task in
practice, especially when knowledge barriers and operational constraints are present.
Sometimes a purposive design is the only possibility. This work aims at finding an optimal
allocation method from a population of enterprises. This task is carried out through a
simulation approach which compares different methodologies. We consider, among others,
and together with the popular optimal allocation and its multivariate extension (Bethel’s
algorithm -1989), the ‘Optimum Robust Allocation with Uniform Stratum Threshold –
AORSU’ (Chiodini P.M., Manzi G., Verrecchia F.; 2008) and the ‘dynamic allocation’
(Buisson, 2009). These methods are suitable both for domain analyses and for the
improvement of the estimates, obtained through a proxy of the stratum variability. In general,
AORSU is useful when an ex-ante allocation is possible. On the other hand the dynamic
allocation (i.e. ex-post) is becoming more and more of interest especially when no
information about stratum variability is available. The method relies on an in itinere adjustment process (i.e. an allocation based upon an estimate of the sampling variance of the first sampling data from the strata). For the latter method, even though a number of practical
solutions for the survey list are available (see, e.g., Chiodini P.M., Facchinetti, Manzi G., Nai Ruscone M., Verrecchia F, 2008), the substitution of sampling units to be interviewed, which is routinely performed, is the real practical drawback, especially when organizational problems, related to target shifting, arise. The solution to this is generally not trivial.
Simulations will be carried out on different databases (ASIA - ISTAT; Italian Register of
enterprises - Chamber of Commerce of Milan, Italy
- …
