Publications
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“The epimer of kaurenoic acid from Croton antisyphiliticus is cytotoxic toward B-16 and HeLa tumor cells through apoptosis induction”, vol. 12, pp. 1005-1011, 2013.
, Arbyn M, Castellsagué X, de Sanjosé S, Bruni L, et al. (2011). Worldwide burden of cervical cancer in 2008. Ann. Oncol. 22: 2675-2686.
http://dx.doi.org/10.1093/annonc/mdr015
PMid:21471563
Balch CM, Buzaid AC, Soong SJ, Atkins MB, et al. (2001). Final version of the American Joint Committee on Cancer staging system for cutaneous melanoma. J. Clin. Oncol. 19: 3635-3648.
PMid:11504745
Barry E, Alvarez JA, Scully RE, Miller TL, et al. (2007). Anthracycline-induced cardiotoxicity: course, pathophysiology, prevention and management. Expert. Opin. Pharmacother. 8: 1039-1058.
http://dx.doi.org/10.1517/14656566.8.8.1039
PMid:17516870
Brandão HN, David JP, Couto RD, Nascimento JAP, et al. (2010). Chemistry and pharmacology of antineoplasic chemoterapeutical derivatives from plants. Quím. Nova 33: 1359-1369.
http://dx.doi.org/10.1590/S0100-40422010000600026
Cavalcanti BC, Bezerra DP, Magalhaes HI, Moraes MO, et al. (2009). Kauren-19-oic acid induces DNA damage followed by apoptosis in human leukemia cells. J. Appl. Toxicol. 29: 560-568.
http://dx.doi.org/10.1002/jat.1439
PMid:19391104
Cavalcanti BC, Ferreira JR, Moura DJ, Rosa RM, et al. (2010). Structure-mutagenicity relationship of kaurenoic acid from Xylopia sericeae (Annonaceae). Mutat. Res. 701: 153-163.
http://dx.doi.org/10.1016/j.mrgentox.2010.06.010
PMid:20599626
Ferlay J, Shin HR, Bray F, Forman D, et al. (2010). Estimates of worldwide burden of cancer in 2008: GLOBOCAN 2008. Int. J. Cancer 127: 2893-2917.
http://dx.doi.org/10.1002/ijc.25516
PMid:21351269
Gordaliza M (2007). Natural products as leads to anticancer drugs. Clin. Transl. Oncol. 9: 767-776.
http://dx.doi.org/10.1007/s12094-007-0138-9
PMid:18158980
Grivicich I, Regner A and Rocha AB (2007). Morte celular por apoptose. Rev. Bras. Cancerol. 53: 335-343.
Hueso-Falcón I, Girón N, Velasco P, Amaro-Luis JM, et al. (2010). Synthesis and induction of apoptosis signaling pathway of ent-kaurane derivatives. Bioorg. Med. Chem. 18: 1724-1735.
http://dx.doi.org/10.1016/j.bmc.2009.11.064
PMid:20116261
Januario AH, Santos SL, Marcussi S, Mazzi MV, et al. (2004). Neo-clerodane diterpenoid, a new metalloprotease snake venom inhibitor from Baccharis trimera (Asteraceae): anti-proteolytic and anti-hemorrhagic properties. Chem. Biol. Interact. 150: 243-251.
http://dx.doi.org/10.1016/j.cbi.2004.09.016
PMid:15560891
Jemal A, Bray F, Center MM, Ferlay J, et al. (2011). Global cancer statistics. CA Cancer J. Clin. 61: 69-90.
http://dx.doi.org/10.3322/caac.20107
PMid:21296855
Kim R, Tanabe K, Uchida Y, Emi M, et al. (2002). Current status of the molecular mechanisms of anticancer drug-induced apoptosis. The contribution of molecular-level analysis to cancer chemotherapy. Cancer Chemother. Pharmacol. 50: 343-352.
http://dx.doi.org/10.1007/s00280-002-0522-7
PMid:12439591
Mancebo F, Hilje L, Mora GA and Salazar R (2002). Biological activity of two neem (Azadirachta indica A. Juss., Meliaceae) products on Hypsipyla grandella (Lepidoptera: Pyralidae) larvae. Crop Protect. 21: 107-112.
http://dx.doi.org/10.1016/S0261-2194(01)00069-2
Mardini H and Record C (2005). Detection assessment and monitoring of hepatic fibrosis: biochemistry or biopsy? Ann. Clin. Biochem. 42: 441-447.
http://dx.doi.org/10.1258/000456305774538210
PMid:16259794
Mekhail TM and Markman M (2002). Paclitaxel in cancer therapy. Expert. Opin. Pharmacother. 3: 755-766.
http://dx.doi.org/10.1517/14656566.3.6.755
PMid:12036415
Mongelli E, Pomilio AB, Sanchez JB, Guerra FM, et al. (2002). ent-Kaur-16-en-19-oic acid, a KB cells cytotoxic diterpenoid from Elaeoselinum foetidum. Phytother. Res. 16: 387-388.
http://dx.doi.org/10.1002/ptr.955
PMid:12112299
Mosmann T (1983). Rapid colorimetric assay for cellular growth and survival: application to proliferation and cytotoxicity assays. J. Immunol. Methods 65: 55-63.
http://dx.doi.org/10.1016/0022-1759(83)90303-4
Navarro A, de las Heras B and Villar A (2000). Immunomodulating properties of the diterpene andalusol. Planta Med. 66: 289-291.
http://dx.doi.org/10.1055/s-2000-8567
PMid:10821063
Newman DJ and Cragg GM (2012). Natural products as sources of new drugs over the 30 years from 1981 to 2010. J. Nat. Prod. 75: 311-335.
http://dx.doi.org/10.1021/np200906s
PMid:22316239
Olsson M and Zhivotovsky B (2011). Caspases and cancer. Cell Death Differ. 18: 1441-1449.
http://dx.doi.org/10.1038/cdd.2011.30
PMid:21455218 PMCid:3178435
WHO (2008). Cancer. Fact sheet No. 297.
Patel S and Goyal A (2012). Recent developments in mushrooms as anti-cancer therapeutics: a review. 3 Biotech 2: 1-15.
Paula de Oliveira A, Santin JR, Lemos M, Klein Junior LC, et al. (2011). Gastroprotective activity of methanol extract and marrubiin obtained from leaves of Marrubium vulgare L. (Lamiaceae). J. Pharm. Pharmacol. 63: 1230-1237.
http://dx.doi.org/10.1111/j.2042-7158.2011.01321.x
PMid:21827496
Premprasert C, Tewtrakul S, Plubrukarn A and Wungsintaweekul J (2012). Anti-inflammatory activity of diterpenes from Croton stellatopilosus on LPS-induced RAW264.7 cells. J. Nat. Med. 67: 174-181.
http://dx.doi.org/10.1007/s11418-012-0668-5
PMid:22529050
Ribble D, Goldstein NB, Norris DA and Shellman YG (2005). A simple technique for quantifying apoptosis in 96-well plates. BMC Biotechnol. 5: 12.
http://dx.doi.org/10.1186/1472-6750-5-12
PMid:15885144 PMCid:1142306
Roberti A, La Sala D and Cinti C (2006). Multiple genetic and epigenetic interacting mechanisms contribute to clonally selection of drug-resistant tumors: current views and new therapeutic prospective. J. Cell Physiol. 207: 571-581.
http://dx.doi.org/10.1002/jcp.20515
PMid:16250021
Rowinsky EK (1997). The development and clinical utility of the taxane class of antimicrotubule chemotherapy agents. Annu. Rev. Med. 48: 353-374.
http://dx.doi.org/10.1146/annurev.med.48.1.353
PMid:9046968
Salatino A, Salatino MLF and Negri G (2007). Traditional uses, chemistry and pharmacology of Croton species (Euphorbiaceae). J. Braz. Chem. Soc. 18: 11-33.
http://dx.doi.org/10.1590/S0103-50532007000100002
Sun L, Simmerling C and Ojima I (2009). Recent advances in the study of the bioactive conformation of taxol. Chem. Med. Chem. 4: 719-731.
http://dx.doi.org/10.1002/cmdc.200900044
PMid:19360801 PMCid:3072276
Szakacs G, Paterson JK, Ludwig JA, Booth-Genthe C, et al. (2006). Targeting multidrug resistance in cancer. Nat. Rev. Drug Discov. 5: 219-234.
http://dx.doi.org/10.1038/nrd1984
PMid:16518375
Vidal V, Potterat O, Louvel S, Hamy F, et al. (2012). Library-based discovery and characterization of daphnane diterpenes as potent and selective HIV inhibitors in Daphne gnidium. J. Nat. Prod. 75: 414-419.t Prod 75: 414-419.
“Genetic variability among natural populations of Zaprionus indianus (Drosophilidae) in the States of São Paulo and Minas Gerais, Brazil”, vol. 9, pp. 1504-1512, 2010.
, Alves SM and Bélo M (2002). Morphometric variations in the housefly, Musca domestica (L.) with latitude. Genetica 115: 243-251.
http://dx.doi.org/10.1023/A:1020685727460
PMid:12440563
Ananina G, Rohde C, David JR, Valente VL, et al. (2007). Inversion polymorphism and a new polytene chromosome map of Zaprionus indianus Gupta (1970) (Diptera: Drosophilidae). Genetica 131: 117-125.
http://dx.doi.org/10.1007/s10709-006-9121-6
PMid:17136577
Castro FL and Valente VLS (2001). Zaprionus indianus is invading Drosophilid communities in the southern Brazilian city of Porto Alegre. Dros. Inf. Serv. 84: 15-17.
Cruz CD (2008). Programa GENES: Diversidade Genética. Universidade Federal de Viçosa, Viçosa.
David JR, Araripe LO, Bitner-Mathé BC, Capy P, et al. (2006). Quantitative trait analysis and geographic variability of natural populations of Zaprionus indianus, a recent invader in Brazil. Heredity 96: 53-62.
PMid:16222328
Excoffier L, Smouse PE and Quattro JM (1992). Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. Genetics 131: 479-491.
PMid:1644282 PMCid:1205020
Frankham R, Ballou JD and Briscoe DA (2006). Introduction to Conservation Genetics. 6th edn. Cambridge University Press, Cambridge.
Go-i B, Fresia P, Calvi-o M, Ferreiro MJ, et al. (2001). First record of Zaprionus indianus Gupta, 1970 (Diptera, Drosophilidae) in southern localities of Uruguay. Dros. Inf. Serv. 84: 61-64.
Go-i B, Martinez ME, Techera G and Fresia P (2002). Increased frequencies of Zaprionus indianus Gupta, 1970 (Diptera, Drosophilidae) in Uruguay. Dros. Inf. Serv. 85: 75-80.
Kato CM, Foureaux LV, César RA and Torres MP (2004). Ocorrência de Zaprionus indianus, Gupta, 1970, (Diptera: Drosophilidae) no Estado de Minas Gerais. Cienc. Agrotec. 28: 454-455.
http://dx.doi.org/10.1590/S1413-70542004000200029
Lachaise D and Tsacas L (1983). Breeding Sites in Tropical African Drosophilids. In: The Genetics and Biology of Drosophila (Ashbumer M, Carson HL and Thompson JN Jr, eds.). Academic Press, London, 22-232.
Linde KVD, Steck GJ, Hibbcerd K, Birdsley JS, et al. (2006). First records of Zaprionus indianus (Diptera: Drosophilidae), a pest species on commercial fruits from Panama and the United States of America. Fla. Entomol. 89: 402-404.
http://dx.doi.org/10.1653/0015-4040(2006)89[402:FROZID]2.0.CO;2
Loh R, David JR, Debat V and Bitner-Matha BC (2008). Adaptation to different climates results in divergent phenotypic plasticity of wing size and shape in an invasive drosophilid. J. Genet. 87: 209-217.
http://dx.doi.org/10.1007/s12041-008-0034-2
PMid:19147905
Lynch M and Milligan BG (1994). Analysis of population genetic structure with RAPD markers. Mol. Ecol. 3: 91-99.
http://dx.doi.org/10.1111/j.1365-294X.1994.tb00109.x
PMid:8019690
Mattos-Machado T, Solé-Cava AM, David JR and Bittner-Mathé BC (2005). Allozyme variability in an invasive drosophilid, Zaprionus indianus (Diptera: Drosophilidae): comparison of a recently introduced Brazilian population with Old World populations. Ann. Soc. Entomol. Fr. 41: 7-13.
Miller MP (1997). Tools for populations' genetics analyses (Computer software distributed by the author). Available at [http://www.marksgeneticsoftware.net/tfpga.htm]. Accessed February 2, 2005.
Miller MP (1998). AMOVA-PREP 1.01. A Program for the Preparation of ANOVA Input Files from Dominant Marker Raw Data (Computer software distributed by the author). Available at [http://www.marksgeneticsoftware.net/_vti_bin/shtml.exe/amovaprep.htm]. Accessed February 2, 2005.
Nei M (1978). Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics 89: 583-590.
PMid:17248844 PMCid:1213855
Pires DJ and Bélo M (2005). Flies collected in orchards. Dros. Inf. Serv. 88: 69-72.
Santos JF, Rieger TT, Campos SRC, Nascimento ACC, et al. (2003). Colonization of Northeast Region of Brazil by the drosophilid flies Drosophila malerkotiliana and Zaprionus indianus, a new potential insect pest for Brazilian fruitculture. Dros. Inf. Serv. 86: 92-95.
Silva NM, Fantinel CC, Valente VLS and Valiati VH (2005). Population dynamics of the invasive species Zaprionus indianus (Gupta) (Diptera: Drosophilidae) in communities of drosophilids of Porto Alegre City, Southern of Brazil. Neotrop. Entomol. 34: 363-374.
http://dx.doi.org/10.1590/S1519-566X2005000300002
Stein CP, Teixeira EP and Novo JPS (2003). Aspectos biológicos da mosca do figo, Zaprionus indianus Gupta, 1970 (Diptera: Drosophilidae). Entomotropica 18: 219-221.
Tidon R, Leite DF and Leão BFD (2003). Impact of the colonisation of Zaprionus (Diptera, Drosophilidae) in different ecosystems of the Neotropical Region: 2 years after the invasion. Biol. Conserv. 112: 299-305.
http://dx.doi.org/10.1016/S0006-3207(02)00322-1
Vilela CR, Teixeira EP and Stein CP (1999). Nova praga nos figos: Zaprionus indianus Gupta, 1970. Inf. Soc. Entomol. Bras. 24: 2.
Yassin A, Capy P, Madi-Ravazzi L, Ogereau D, et al. (2008). DNA barcode discovers two cryptic species and two geographical radiations in the invasive drosophilid Zaprionus indianus. Mol. Ecol. Resour. 8: 491-501.
http://dx.doi.org/10.1111/j.1471-8286.2007.02020.x
PMid:21585826
Yassin A, Borai F, Capy P, David JR, et al. (2009). Evolutionary genetics of Zaprionus. II. Mitochondrial DNA and chromosomal variation of the invasive drosophilid Zaprionus indianus in Egypt. Mitochondrial DNA 20: 34-40.
PMid:19444699
Yeh FC, Yang R-C and Boyle T (1999). POPGENE Version 1.31. Microsoft Window-based Freeware for Population Genetic Analysis. Quick User Guide. University of Albert, Centre for International Forestry Research. Available at [http://www.ualberta.ca/~fyeh/popgene.pdf]. Accessed February 2, 2002.