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Cadmium toxicity and its relationship with disturbances in the cytoskeleton, cell cycle and chromosome stability (2019)

  • Authors:
  • USP affiliated authors: MONDIN, MATEUS - ESALQ ; AZEVEDO, RICARDO ANTUNES DE - ESALQ ; PIZZAIA, DANIEL - ESALQ ; NOGUEIRA, MARINA DE LIMA - ESALQ ; PIOTTO, FERNANDO ANGELO - ESALQ
  • Unidades: ESALQ; ESALQ; ESALQ; ESALQ; ESALQ
  • DOI: 10.1007/s10646-019-02096-0
  • Subjects: CÁDMIO; CÉLULAS VEGETAIS; CITOESQUELETO VEGETAL; CROMOSSOMOS VEGETAIS; METAL PESADO DO SOLO; TOMATE
  • Agências de fomento:
  • Language: Inglês
  • Imprenta:
  • Source:
  • Informações sobre o DOI: 10.1007/s10646-019-02096-0 (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed

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    • ABNT

      PIZZAIA, Daniel; NOGUEIRA, Marina de Lima; MONDIN, Mateus; et al. Cadmium toxicity and its relationship with disturbances in the cytoskeleton, cell cycle and chromosome stability. Ecotoxicology, Cham, Springer, v. 28, p. 1046-1055, 2019. Disponível em: < https://doi.org/10.1007/s10646-019-02096-0 > DOI: 10.1007/s10646-019-02096-0.
    • APA

      Pizzaia, D., Nogueira, M. de L., Mondin, M., Carvalho, M. E. A., Piotto, F. A., Rosario, M. F., & Azevedo, R. A. (2019). Cadmium toxicity and its relationship with disturbances in the cytoskeleton, cell cycle and chromosome stability. Ecotoxicology, 28, 1046-1055. doi:10.1007/s10646-019-02096-0
    • NLM

      Pizzaia D, Nogueira M de L, Mondin M, Carvalho MEA, Piotto FA, Rosario MF, Azevedo RA. Cadmium toxicity and its relationship with disturbances in the cytoskeleton, cell cycle and chromosome stability [Internet]. Ecotoxicology. 2019 ; 28 1046-1055.Available from: https://doi.org/10.1007/s10646-019-02096-0
    • Vancouver

      Pizzaia D, Nogueira M de L, Mondin M, Carvalho MEA, Piotto FA, Rosario MF, Azevedo RA. Cadmium toxicity and its relationship with disturbances in the cytoskeleton, cell cycle and chromosome stability [Internet]. Ecotoxicology. 2019 ; 28 1046-1055.Available from: https://doi.org/10.1007/s10646-019-02096-0

    Referências citadas na obra
    Abdalla KO, Thomson JA, Rafudeen MS (2009) Protocols for nuclei isolation and nuclear protein extraction from the resurrection plant Xerophyta viscosa for proteomic studies. Anal Biochem 384:365–367
    Alves LA, Monteiro CC, Carvalho RF, Ribeiro PC, Tezotto T, Azevedo RA, Gratão PL (2017) Cadmium stress related to root-to-shoot communication depends on ethylene and auxin in tomato plants. Environ Exp Bot 134:102–115
    Araújo RP, Almeida A-AF, Pereira LS, Mangabeira PAO, Souza JO, Pirovani CP, Ahnert D, Baligar VC (2017) Photosynthetic, antioxidative, molecular and ultrastructural responses of young cacao plants to Cd toxicity in the soil. Ecotoxicol Environ Saf 144:148–157
    Arya SK, Mukherjee A (2014) Sensitivity of Allium cepa and Vicia faba towards cadmium toxicity. J Soil Sci Plant Nutr 14:447–458
    Avila-Ospina L, Moison M, Yoshimoto K, Daubresse CM (2014) Autophagy, plant senescence, and nutrient recycling. J Exp Bot 65:3799–811
    Bandyopadhyay A, Mukherjee A (2011) Sensitivity of Allium and Nicotiana in cellular and acellular comet assays to assess differential genotoxicity of direct and indirect acting mutagens. Ecotoxicol Environ Saf 74:860–865
    Bayçu G, Gevrek-Kürüm N, Moustaka J, Csatári I, Rognes SE, Moustakas M (2017) Cadmium-zinc accumulation and photosystem II responses of Noccaea caerulescens to Cd and Zn exposure. Environ Sci Pollut Res Int 24:2840–2850
    Borges KLR, Hippler FWR, Carvalho MEA, Nalin RS, Matias FI, Azevedo RA (2019) Nutritional status and root morphology of tomato under Cd-induced stress: comparing contrasting genotypes for metal-tolerance. Sci Hortic 246:518–527
    Borges KLR, Salvato F, Alcântara BK, Nalin RS, Piotto FA, Azevedo RA (2018) Temporal dynamic responses of roots in contrasting tomato genotypes to cadmium tolerance. Ecotoxicology 27:245–258
    Cabral Pinto MMS, Marinho-Reis AP, Almeida A, Ordens CM, Silva MMVG, Freitas S, Simões MR, Moreira PI, Dinis PA, Diniz ML, Ferreira da Silva EA, Condesso de Melo MT (2017) Human predisposition to cognitive impairment and its relation with environmental exposure to potentially toxic elements. Environ Geochem Health 40:1767–1784
    Carvalho MEA, Piotto FA, Franco MR, Borges KLR, Gaziola SA, Castro PRC, Azevedo RA (2018c) Cadmium toxicity degree on tomato development is associated with disbalances in B and Mn status at early stages of plant exposure. Ecotoxicology 27:1293–1302
    Carvalho MEA, Piotto FA, Franco MR, Martinelli AP, Cuypers A, Azevedo RA (2019) Relationship between Mg, B and Mn status and tomato tolerance against Cd toxicity. J Environ Manag 240:84–92
    Carvalho MEA, Piotto FA, Gaziola SA, Jacomino AP, Jozefczak M, Cuypers A, Azevedo RA (2018a) New insights about cadmium impacts on tomato: plant acclimation, nutritional changes, fruit quality and yield. Food Energy Secur 7:e00131
    Carvalho MEA, Piotto FA, Nogueira ML, Gomes-Junior FG, Chamma HMCP, Pizzaia D, Azevedo RA (2018b) Cadmium exposure triggers genotype-dependent changes in seed vigor and germination of tomato offspring. Protoplasma 255:989–999
    Cerda H, Delincée H, Haine H, Rupp H (1997) The DNA ‘comet assay’ as a rapid screening technique to control irradiated food. Mutat Res 375:167–81
    Fan JL, Wei XG, Wan LC, Zhang LY, Zhao XQ, Liu WZ, Hao HQ, Zhang HY (2011) Disarrangement of actin filaments and Ca2+ gradient by CdCl2 alters cell wall construction in Arabidopsis thaliana root hairs by inhibiting vesicular trafficking. J Plant Physiol 168:1157–1167
    Fidalgo F, Freitas R, Ferreira R, Pessoa AM, Teixeira J (2011) Solanum nigrum L. antioxidant defence system isozymes are regulated transcriptionally and postranslationally in Cd-induced stress. Environ Exp Bot 72:312–319
    Gallego SM, Pena LB, Barcia RA, Azpilicueta CE, Iannone MF, Rosales EP, Zawoznik MS, Groppa MD, Benavides MP (2012) Unravelling cadmium toxicity and tolerance in plants: insight into regulatory mechanisms. Environ Exp Bot 83:33–46
    Gichner T, Patková Z, Kim J (2003) DNA damage measured by the comet assay in eight agronomic plants. Biol Plant 47:185–188
    Gratão PL, Monteiro CC, Tezotto T, Carvalho RF, Alves LR, Peters LP, Azevedo RA (2015) Cadmium stress antioxidant responses and root-to-shoot communication in grafted tomato plants. Biometals 28:803–816
    Gratão PL, Polle A, Lea PJ, Azevedo RA (2005) Making the life of heavy metal stressed plants a little easier. Funct Plant Biol 32:481–494
    Gzyl J, Chmielowska-Bak J, Przymusinski R, Gwóźdź EA (2015) Cadmium affects microtubule organization and post-translational modifications of tubulin in seedlings of soybean (Glycine max L.). Front Plant Sci 6:937
    Hamada T (2007) Microtubule-associated proteins in higher plants. J Plant Res 120:79–98
    Hendrix S, Keunen E, Mertens AIG, Beemster GTS, Vangronsveld J, Cuypers A (2018) Cell cycle regulation in different leaves of Arabidopsis thaliana plants grown under control and cadmium-exposed conditions. Environ Exp Bot 155:441–452
    Horio T, Murata T (2014) The role of dynamic instability in microtubule organization. Front Plant Sci 5:511
    Hossain Z, Huq F (2002) Studies on the interaction between Cd2+ ions and DNA. J Inorg Biochem 90:85–96
    Iakimova ET, Woltering EJ, Kapchina-Toteva VM, Harren FJM, Cristescu SM (2008) Cadmium toxicity in cultured tomato cells—role of ethylene, proteases and oxidative stress in cell death signaling. Cell Biol Int 32:1521–1529
    Kato FH, Carvalho MEA, Gaziola SA, Piotto FA, Azevedo RA (2020) Lysine metabolism and amino acid profile in maize grains from plants subjected to cadmium exposure. Sci Agric 77:e20180095
    Leme DM, Marin-Morales MA (2009) Allium cepa test in environmental monitoring: a review on its application. Mutat Res 682:71–81
    Liu D, Xue P, Meng Q, Zou J, Gu J, Jiang W (2009) Pb/Cu effects on the organization of microtubule cytoskeleton in interphase and mitotic cells of Allium sativum L. Plant Cell Rep 28:695–702
    Marques DN, Carvalho MEA, Piotto FA, Batagin-Piotto KD, Nogueira ML, Gaziola SA, Azevedo RA (2019) Antioxidant defense response in plants to cadmium stress. In: Hasanuzzaman M, Prasad MNV, Nahar M (eds) Cadmium tolerance in plants: agronomic, molecular, signaling, and omic approaches, 1st edn. Academic Press, Cambridge, p 423–461
    Marschner P (2012) Marschner’s mineral nutrition of higher plants. Academic Press, San Diego
    Michaeli S, Galili G (2014) Degradation of organelles or specific organelle components via selective autophagy in plant cells. Int J Mol Sci 15:7624–7638
    Mondin M, Santos-Serejo JA, Aguiar-Perecin MLR (2007) Karyotype characterization of Crotalaria juncea (L.) by chromosome banding and physical mapping of 18S-5.8S-26S and 5S rRNA gene sites. Genet Mol Biol 30:65–72
    Nogueirol RC, Monteiro FA, Gratão PL, Silva BKA, Azevedo RA (2016) Cadmium application in tomato: nutritional imbalance and oxidative stress. Water Air Soil Pollut 227:210
    Nogueirol RC, Monteiro FA, Souza Jr JC, Azevedo RA (2018) NO3 −/NH4 + proportions affect cadmium bioaccumulation and tolerance of tomato. Environ Sci Pollut Res 25:13916–13928
    O’Lexy R, Kasai K, Clark N, Fujiwara T, Sozzani R, Gallaghe KL (2018) Exposure to heavy metal stress triggers changes in plasmodesmatal permeability via deposition and breakdown of callose. J Exp Bot 69:3715–3728
    Oldenburg DJ, Bendich AJ (2015) DNA maintenance in plastids and mitochondria of plants. Front Plant Sci 6:883
    Parrotta L, Cresti M, Cai G (2014) Accumulation and post-translational modifications of plant tubulins. Plant Biol 16:521–527
    Piotto FA, Carvalho MEA, Souza LA, Rabêlo FHS, Franco MR, Batagin-Piotto KB, Azevedo RA (2018) Estimating tomato tolerance to heavy metal toxicity: cadmium as study case. Environ Sci Pollut Res 25:27535–27544
    Pompeu GB, Vilhena MB, Gratão PL, Carvalho RF, Rossi ML, Martinelli AP, Azevedo RA (2017) Abscisic acid-deficient sit tomato mutant responses to cadmium-induced stress. Protoplasma 254:771–783
    R Development Core Team (2014) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna
    Sebastian A, Prasad MNV (2016) Modulatory role of mineral nutrients on cadmium accumulation and stress tolerance in Oryza sativa L. seedlings. Environ Sci Pollut Res 23:1224–1233
    Seth CS, Misraa V, Chauhan LKS, Singh RR (2008) Genotoxicity of cadmium on root meristem cells of Allium cepa: cytogenetic and comet assay approach. Ecotoxicol Environ Safe 71:711–716
    Shi HP, Feng Y, Wang YL, Tsang PKE (2014) Effect of cadmium on cytogenetic toxicity in hairy roots of Wedelia trilobata L. and their alleviation by exogenous CaCl2. Environ Sci Pollut Res 21:1436–1443
    Shi Q, Wang J, Zou J, Jiang Z, Wu H, Wang J, Jiang W, Liu D (2016) Cadmium localization and its toxic effects on root tips of barley. Zemdirbyste-Agricultue 103:151–158
    Siegel S, Castellan NJ (1988) Non parametric statistics for the behavioural sciences. MacGraw Hill Int., New York, NY, p 213–214
    Singh S, Parihar P, Singh R, Singh VP, Prasad SM (2016) Heavy metal tolerance in plants: role of transcriptomics, proteomics, metabolomics, and ionomics. Front Plant Sci 6:1143
    Soares C, Carvalho MEA, Azevedo RA, Fidalgo F (2019) Plants facing oxidative challenges—a little help from the antioxidant networks. Environ Exp Bot 161:4–25
    Souza LA, Camargos LS, Carvalho MEA (2018) Toxic metal phytoremediation using high biomass non-hyperaccumulator crops: new possibilities for bioenergy resources. In: Matichenkov V (ed) Phytoremediation: methods, management, assessment. Nova Science, New York, NY, p 1–25
    Wang QL, Liu DH, Yue JY (2016) The uptake of cadmium by Allium cepa var. agrogarum L. and its effects on chromosome and nucleolar behavior in root tip cells. Phyton 85:155–161
    Wang Y, Ji Y, Fu Y, Guo H (2018) Ethylene-induced microtubule reorientation is essential for fast inhibition of root elongation in Arabidopsis. J Integr Plant Biol 60:864–877
    Yakimova ET, Kapchina-Toteva VM, Laarhoven L-J, Harren FM, Woltering EJ (2006) Involvement of ethylene and lipid signalling in cadmium-induced programmed cell death in tomato suspension cells. Plant Physiol Biochem 44:581–589
    Zhang S, Zhang H, Qin R, Jiang W, Liu D (2009) Cadmium induction of lipid peroxidation and effects on root tip cells and antioxidant enzyme activities in Vicia faba L. Ecotoxicology 18:814–823
    Zhou J, Yao J, Joshi HC (2012) Attachment and tension in the spindle assembly checkpoint. J Cell Sci 115:3547–3555

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