14,482 research outputs found

    De gli obelischi di Roma

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    Sign.: *\p4\s, 2*\p6\s, A-Z\p4\s, 2A-2Z\p4\s, 3A-3I\p4\sPort. con grab. calc., escudo pontifici

    Della trasportatione dell'obelisco vaticano et delle fabriche di nostro signore Papa Sisto V...

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    ColofónSign.: [ ]\p1\s, A-S\p6\s, [cruz]\p4\sPort. arquitectónica, "intagliato da Natal Bonifacio da Sibenico"Sign.: A-S\p6\s, cruz \p4\sPort. arquitectónicaRetrato calc. de Domenico Fontana en h. de grab.: "natalis bonifactius Sibenicen. Dalmatinus Inciebat Romae 1589"Ilustraciones calc. a lo largo del texto y grab. calc. en h. plegIl. calc. en port.: "intagliato da Natal Bonifacio da Sibenico

    AI in Agriculture for Sustainable and Economic Management

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    This book explains the best practices and their respective outcomes in artificial intelligence (AI) to meet sustainable development goals and demands. It examines the practices, technologies, and innovations at the core of various research issues to meet the sustainable development demands in agriculture to balance social, economic, and environmental sustainability with AI. AI in Agriculture for Sustainable and Economic Management discusses AI-driven nanotechnology approaches for precision agriculture and solutions for the optimization of farming resources and their management. The authors examine the impact of AI in agriculture and how technology-driven sustainable farming with smart waste-water treatment for zero waste for the circular economy can extend crop shelf-life. It discusses how AI expertise can be advantageous to envisage and evaluate the increasing demands of productivity, and to help to maintain ecosystems and strengthen the capacity for crop adaptation in response to drastic changes in climate and weather, natural disasters, and other significant factors. These findings and practices are also useful to emphasize how an agricultural ecosystem can be advanced and industrialized so that it can aid not only large commercial farms but also smaller farmlands. Finally, it also discusses how AI practices will help to find a balance between the volume of food manufactured and the proper maintenance of the ecosystem. This book is intended for researchers and upper graduate students interested in artificial intelligence in agricultural engineering, AI advances in crop science and technology for sustainable development

    Il deuotissimo viaggio di Gierusalemme

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    Fecha en colofón MDLXCV [i.e. 1595]Sign.: A-Z\p8\sVarias il. calc. intercaladas en el texto y [2] de grab. calc., planos de planta: "Natal Bonifacio F.

    Protein Kinase C isoenzymes in mouse Harderian gland. Differential expression of the and isoforms during pregnancy

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    Protein kinase C (PKC) is known to be involved in the regulation of exocytosis in different cell lines and tissues. Experiments were designed to determine whether the Harderian gland of CD-1 mouse produces PKC isoenzymes and whether the expression of the isoforms changes during pregnancy. The presence of the isoenzymes was assessed by immunoblotting experiments using extract of total Harderian gland and polyclonal antisera specific for nine different PKC isoforms. Antisera giving a positive staining on Western blots were subsequently used for immunohistochemical investigation using a secondary antibody conjugated to alkaline phosphatase. Immunoblotting experiments revealed that the Harderian gland from female mouse expresses PKC isoforms-alpha, -epsilon, -zeta and -eta. These isoforms were also detected in the Harderian gland from 13-day pregnant mouse; however, striking quantitative changes were seen concerning the alpha- and epsilon-isoforms. The 80-kDa native from of PKC-alpha almost doubled in the pregnant mouse in comparison with normal female mouse whereas the amount of 50-kDa catalytic domain did not change. Protein kinase C-epsilon appeared as a 92- to 93-kDa form and a 67-kDa form. While the 92- to 93-kDa protein was expressed to a similar extent in both types of mouse, the 67-kDa form was more abundant in the Harderian gland from normal female mouse. These data were corroborated by immunohistochemical experiments and showing a diffuse and granular staining of the adenomeres. These observations demonstrate for the first time (to our knowledge) that the mouse Harderian gland produces several PKC isoenzymes that could be involved in the regulation of exocytosis and/or other functions

    STEMMER FOR "BASA SUNDA"

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    Stemming usually be used to remove suffixes from given word(s). In this paper, we used stemming algorithm to remove suffixes from word in " basa Sunda", the second biggest local language in Indonesia. Although the "basa Sunda" is common language in Indonesia especially in Jawa Barat, we didn't find any reference about it. We begin our research by develop a software for the stemming process in order to begin milestone project of the Natural Language Processing for basa Sunda

    RAGAM BASA JAWI WONTEN ING CERBUNG RAJAPATI ING PERENG WILIS ANGGITANIPUN KUKUH S. WIBOWO

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    Ancasing panaliten menika kangge ngandharaken ragam basa Jawi wonten ing salebeting cerbung Rajapati ing Pereng Wilis anggitanipun Kukuh S. Wibowo. Bab menika ngrembag jinising ragam basa Jawi, fungsi ragam basa, saha ancasing saking ragam basa Jawi. Panaliten menika awujud panaliten deskriptif. Data wonten ing panaliten menika awujud tuturan saking paraga ingkang ngginakaken jinising ragam basa Jawi adhedasar keformalan saha fungsi ragam basa. Sumber data saking panaliten menika, cariyos sambung wonten ing salebeting kalawarti Panjebar Semangat edisi 17-34, 23 April-20 Agustus 2011, episod 1 dumugi 18 kanthi irah-irahan Rajapati ing Pereng Wilis anggitanipun Kukuh S. Wibowo. Anggenipun ngempalaken data dipuntindakaken dening panaliten kanthi ngginakaken kertu data ingkang dados pirantosipun. Data panaliten dipunkempalaken kanthi ngginakaken teknik maos saha nyerat (cathet). Analisis data ingkang dipunginakaken wonten ing panaliten menika analisis deskriptif. Asiling panaliten menika, jinising ragam basa Jawi adhedasar keformalan, fungsi ragam basa, saha ancasing saking ragam basa ingkang kaginakaken wonten ing cariyos sambung Rajapati ing Pereng Wilis. Ragam basa ingkang dipunginakaken inggih menika ragam beku, ragam resmi, ragam usaha, ragam santai, saha ragam akrab. Fungsi ragam basa ingkang dipunginakaken inggih menika fungsi instrumental (meksa, ngyakinaken, prentah, panyuwun, pangajak, saha nyukani pamrayogi), fungsi regulasi, fungsi representasional (mahyakaken kasunyatan, nedahaken kasunyatan, saha ngakoni kasunyatan), fungsi interaksional (sapa aruh, pasarujukan/wangsulan, saha pitakenan), fungsi personal, (raos pasrah, bimbang, manteb, duka, bingung, ajrih, sedhih, jengkel, gumun, umuk, pamer, bingah, kaget, geguyonan, sereng, saha srengen), fungsi heuristik, saha fungsi imajinatif. Pamijining tembung: Ragam basa Jawi, Rajapati ing Pereng Wilis

    BASA NITROGEN PENYUSUN DNA

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    "Basa Nitrogen Penyusun DNA" merupakan panduan komprehensif yang mengeksplorasi fundamen molekuler kehidupan melalui pemahaman mendalam tentang empat basa nitrogen yang menyusun DNA: adenin, guanin, sitosin, dan timin. Buku ini menyajikan analisis sistematis mulai dari struktur kimia dasar hingga aplikasi teknologi mutakhir dalam biologi molekuler modern. Pembahasan dimulai dengan pengantar konseptual yang meletakkan fondasi pemahaman tentang peran krusial basa nitrogen dalam sistem biologis. Bab kedua dan ketiga menguraikan secara detail struktur dan sifat fisikokimia basa purin (adenin dan guanin) serta basa pirimidin (sitosin dan timin), termasuk biosintesis, modifikasi, dan variasi yang mempengaruhi fungsi DNA. Pembahasan tentang pasangan basa dan ikatan hidrogen pada bab keempat mengungkapkan mekanisme molecular recognition yang memungkinkan spesifisitas dan stabilitas struktur heliks ganda DNA. Bab terakhir mengintegrasikan semua konsep untuk menjelaskan peran multifungsi basa nitrogen dalam penyimpanan informasi genetik, replikasi DNA, transkripsi, regulasi ekspresi gen, dan modifikasi epigenetik. Pembaca akan memahami bagaimana molekul-molekul sederhana ini memungkinkan kompleksitas biologis yang luar biasa, dari level molekuler hingga aplikasi praktis dalam kedokteran, biotechnology, dan penelitian genomik. Ditulis dengan pendekatan yang accessible namun scientific rigorous, buku ini menjadi referensi essential bagi mahasiswa biologi, peneliti, dan profesional yang ingin memahami fundamental building blocks kehidupan di era genomik modern
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