S. Zuccherelli scite author profile

Gametophytic self-incompatibility, a natural mechanism occurring in pear and other fruit-tree species, is usually controlled by the S-locus with allelic variants (S1, S2, Sn). Recently, biochemical and molecular tools have determined the S-genotype of cultivars in various species. The present study determined the S-locus composition of ten European pear cultivars via S-PCR molecular assay, thereby obviating time-consuming fieldwork whose results are often ambiguous because of environmental effects. To verify the S-PCR assay, two putative S-allele DNA fragments of Japanese pear were isolated; their sequences proved to be identical to those reported in the databank. Six S-allele fragments of European pear were then sequenced. While field data confirmed the molecular results, fully and half-compatible field crosses were not distinguishable.

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S-Allele Characterization in Self-Incompatible Pear (Pyrus Communis): Biochemical, Molecular and Field Analyses

Zuccherelli¹,

Broothaerts²,

Tassinari³

et al. 2002

Acta Hortic.

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Polimorfismo enzimático nos tecidos de pereira

Fachinello

Musacchi

Zuccherelli

et al. 2000

Pesq. agropec. bras.

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O trabalho foi realizado com o objetivo de avaliar o polimorfismo enzimático em diferentes tecidos de oito cultivares de pereira Pyrus communis L. Os genótipos utilizados fazem parte da coleção de plantas disponíveis na Universidade de Estudos de Bolonha. Para as análises isoenzimáticas foram utilizadas gemas floríferas dormentes no inverno, casca de ramos de um ano obtida de plantas em pleno desenvolvimento, folhas obtidas no início da primavera e folhas de plantas mantidas in vitro. A corrida eletroforética foi realizada em gel de poliacrilamida a gradiente com (5% a 12,5%). Os resultados obtidos com os genótipos utilizados indicaram que o sistema enzimático beta-glucosidase (E.C.3.2.1.21) apresentou atividade apenas nas folhas das plantas in vitro, com uma banda na mesma posição para todas as cultivares, ao passo que os sistemas para as enzimas esterase (E.C.3.1.1.2) e peroxidase (E.C.1.11.1.7) apresentaram elevado polimorfismo. Nas gemas dormentes analisadas, o sistema peroxidase permitiu diferenciar todos os genótipos. As formas isoenzimáticas da esterase permitiram separar todos os genótipos independentemente dos tecidos utilizados.

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In Vitro Multiplication of Artichoke and Virus Elimination by Termotherapy and Chemotherapy

Navacchi¹,

Zuccherelli²,

Zuccherelli³

2005

Acta Hortic.

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S. Zuccherelli

In Vitro Propagation of Fifty Olive Cultivars

S-Allele characterization in self-incompatible pear (Pyrus communis L.)

S-Allele Characterization in Self-Incompatible Pear (Pyrus Communis): Biochemical, Molecular and Field Analyses

Polimorfismo enzimático nos tecidos de pereira

In Vitro Multiplication of Artichoke and Virus Elimination by Termotherapy and Chemotherapy

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