"Carbamyl Phosphate" - Books

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Results: 20 books (53 items)

Select item 14589841.

GeneReviews® [Internet].

Adam MP, Bick S, Mirzaa GM, et al., editors.

Seattle (WA): University of Washington, Seattle; 1993-2025.

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Select item 18813822.

Basic Neurochemistry: Molecular, Cellular and Medical Aspects. 6th edition.

Siegel GJ, Agranoff BW, Albers RW, et al., editors.

Philadelphia: Lippincott-Raven; 1999.

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Select item 44036683.

StatPearls [Internet].

Treasure Island (FL): StatPearls Publishing; 2025 Jan-.

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Select item 42037204.

Streptococcus pyogenes : Basic Biology to Clinical Manifestations [Internet].

Ferretti JJ, Stevens DL, Fischetti VA, editors.

Oklahoma City (OK): University of Oklahoma Health Sciences Center; 2016-.

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Select item 14152805.

Madame Curie Bioscience Database [Internet].

Austin (TX): Landes Bioscience; 2000-2013.

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Select item 31556886.

Drinking Water and Health Volume 3.

National Research Council (US) Safe Drinking Water Committee.

Washington (DC): National Academies Press (US); 1980.

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Select item 41321987.

Alcohol Consumption and Ethyl Carbamate.

IARC Working Group on the Evaluation of Carcinogenic Risks to Humans.

Lyon (FR): International Agency for Research on Cancer; 2010. (IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, No. 96.)

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Select item 15027928.

Molecular Imaging and Contrast Agent Database (MICAD) [Internet].

Bethesda (MD): National Center for Biotechnology Information (US); 2004-2013.

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Select item 44954509.

Glycerol Phenylbutyrate (Ravicti) [Internet].

Ottawa (ON): Canadian Agency for Drugs and Technologies in Health; 2017 Apr.

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Select item 567236810.

An Inventory of Rare Disease Registries in the Canadian Landscape: Environmental Scan [Internet].

Ottawa (ON): Canadian Agency for Drugs and Technologies in Health; 2024 Aug.

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Select item 540176811.

Streptococcus pyogenes: Basic Biology to Clinical Manifestations [Internet]. 2nd edition.

Ferretti JJ, Stevens DL, Fischetti VA, editors.

Oklahoma City (OK): University of Oklahoma Health Sciences Center; 2022 Oct 8.

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Select item 314868212.

Possible Long-Term Health Effects of Short-Term Exposure to Chemical Agents: Volume 1 Anticholinesterases and Anticholinergics.

National Research Council (US) Panel on Anticholinesterase Chemicals; National Research Council (US) Panel on Anticholinergic Chemicals.

Washington (DC): National Academies Press (US); 1982.

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Select item 315005213.

Selenium in Nutrition: Revised Edition.

National Research Council (US) Subcommittee on Selenium.

Washington (DC): National Academies Press (US); 1983.

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Select item 321641614.

The Life Sciences: Recent Progress and Application to Human Affairs: The World of Biological Research Requirements for the Future.

National Academy of Sciences (US) Committee on Research in the Life Sciences.

Washington (DC): National Academies Press (US); 1970.

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Select item 307786215.

Enterococci: From Commensals to Leading Causes of Drug Resistant Infection [Internet].

Gilmore MS, Clewell DB, Ike Y, et al., editors.

Boston: Massachusetts Eye and Ear Infirmary; 2014-.

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Select item 462644816.

Alcohol Drinking.

IARC Working Group on the Evaluation of Carcinogenic Risks to Humans.

Lyon (FR): International Agency for Research on Cancer; 1988. (IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, No. 44.)

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Select item 550200617.

Toxicological Profile for Hydrazines.

Atlanta (GA): Agency for Toxic Substances and Disease Registry (US); 1997 Sep.

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Select item 556237018.

Toxicological Profile for Tin and Tin Compounds.

Atlanta (GA): Agency for Toxic Substances and Disease Registry (US); 2005 Aug.

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Select item 305398019.

Toxicological Profile for Manganese.

Williams M, Todd GD, Roney N, et al.

Atlanta (GA): Agency for Toxic Substances and Disease Registry (US); 2012 Sep.

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Select item 340129420.

Endotext [Internet].

Feingold KR, Ahmed SF, Anawalt B, et al., editors.

South Dartmouth (MA): MDText.com, Inc.; 2000-.

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Figure 44-6

The urea cycle and related reactions of ammonia metabolism. Congenital hyperammonemia syndromes usually are caused by a deficiency of one of the enzymes of the urea cycle. Ammonia also can be metabolized to glutamate, alanine, glutamine and glycine. Administration of phenylacetate or of benzoate favors the formation of phenylacetylglutamine and hippurate, respectively, thereby providing an effective “antidote” to ammonia toxicity. Enzymes: 1, carbamyl phosphate synthetase; 2, ornithine transcarbamylase; 3, argininosuccinate synthetase; 4, argininosuccinate lyase; 5, arginase; 6, glutamine synthetase; 7, glycine-cleavage system; 8, glycine-N-acylase; 9, glutamate dehydrogenase; 10, alanine aminotransferase; 11, cytosolic pathway of orotic acid synthesis, which becomes prominent when there is a block at the level of reaction 2, thus resulting in increased orotic acid excretion; 12, N-acetylglutamate synthetase; 13, phenylacetyl-CoA:glutamine transferase. NAG, N-acetylglutamate; PA-CoA, phenylacetyl-CoA; GLN, glutamine. The + symbols denote that arginine and NAG are positive effectors for reactions 12 and 1, respectively.

Diseases of Amino Acid Metabolism.

Siegel GJ, Agranoff BW, Albers RW, et al., editors. Basic Neurochemistry: Molecular, Cellular and Medical Aspects. 6th edition. Philadelphia: Lippincott-Raven; 1999.
Figure 1

Metabolic pathways for RNA and DNA precursors biosynthesis: a palimpsest from the RNA to DNA world transition? The biosynthetic pathways for purine and pyrimidine nucleotides both start with ribose 5-monophosphate. The formation of the four bases requires several amino-acids, formate and carbamyl-phosphate. Nucleotide monophosphates (NMP) are converted into RNA precursors (NTP) by NMP kinases (k) and NDP kinases (K). These reactions probably are relics of the RNA-protein world. DNA precursors are produced from NDP and/or NTP by ribonucleotide reductases (RNR), except for dTTP, which results from methylation of dUMP. dTMP is produced from dUMP by Thymidylate synthases (ThyA or ThyX) and converted into dTTP by the same kinases that convert NMP into NTP. dUMP can be produced either by dUTPAse or by dCTP deaminase. In the U-DNA world, it could have been also produced by degradation of U-DNA. The mode of dTMP production clearly suggests that U-DNA was an evolutionary intermediate between RNA and T-DNA. Some viruses contain U-DNA, whereas others contain HMC-DNA (HMC= hydroxymethyl-cytosine). Transformation of C into HMC occurs at the level of dCMP, and conversion of dCMP into dHMCMP is catalyzed by a dCMP hydroxy-methyl transferase (dCMP HM transferase), which is homologue to ThyA (See refs. 11, 14, and 19 for more details).

Origin and Evolution of DNA and DNA Replication Machineries.

Madame Curie Bioscience Database [Internet]. Austin (TX): Landes Bioscience; 2000-2013.