Cytogenetic data of Partamona peckolti (Hymenoptera, Apidae, Meliponini) by C banding and fluorochrome staining with DA/CMA3 and DA/DAPI

Brito, Rute Magalhães; Caixeiro, Ana Paula de Almeida; Pompolo, Silvia das Graças; Azevedo, Giselle Garcia

doi:10.1590/S1415-47572003000100009

Abstract

The stingless bees of the Partamona genus have been studied taxonomically, ecologically and behaviourally, but cytogenetic studies are still rare. The objective of this study was to obtain cytogenetic data to contribute to Partamona peckolti species characterization. Heterochromatin was localized in all chromosome pericentromeric regions but some blocks could be visualized on some large chromosomes arms. A large heterozygous DA-CMA3-positive band was observed on one large chromosome arm, but was completely absent when C banding was applied before fluorochrome staining, with only one small positive band being visualized. Sequential DA-CMA3-NOR staining of interphase nuclei provided coincident positive responses. This suggests that DA-CMA3-positive bands of P. peckolti correspond to nucleolar organizer regions, as previously confirmed for another Partamona species by FISH.

Meliponini; Partamona; karyotype; C-banding; fluorochromes

RESEARCH ARTICLE

Cytogenetic data of Partamona peckolti (Hymenoptera, Apidae, Meliponini) by C banding and fluorochrome staining with DA/CMA₃ and DA/DAPI

Rute Magalhães Brito^I; Ana Paula de Almeida Caixeiro^II; Silvia das Graças Pompolo^II; Giselle Garcia Azevedo^III

^IDepartamento de Biologia/Genética, USP, Cidade Universitária, São Paulo, SP, Brazil

^IIDepartamento de Biologia Geral, UFV, Viçosa, MG, Brazil

^IIISetor de Entomologia, Faculdade de Filosofia Ciências e Letras de Ribeirão Preto, USP, Ribeirão Preto, SP, Brazil

^{Correspondence} Correspondence to Silvia das Graças Pompolo E-mail: spompolo@ufv.br

ABSTRACT

The stingless bees of the Partamona genus have been studied taxonomically, ecologically and behaviourally, but cytogenetic studies are still rare. The objective of this study was to obtain cytogenetic data to contribute to Partamona peckolti species characterization. Heterochromatin was localized in all chromosome pericentromeric regions but some blocks could be visualized on some large chromosomes arms. A large heterozygous DA-CMA₃-positive band was observed on one large chromosome arm, but was completely absent when C banding was applied before fluorochrome staining, with only one small positive band being visualized. Sequential DA-CMA₃-NOR staining of interphase nuclei provided coincident positive responses. This suggests that DA-CMA₃-positive bands of P. peckolti correspond to nucleolar organizer regions, as previously confirmed for another Partamona species by FISH.

Key words: Meliponini, Partamona, karyotype, C-banding, fluorochromes.

Introduction

The first karyotype evolution hypothesis elaborated for Meliponini bees postulated that the different chromosome numbers observed today are the product of polyploidy events from a basic number, n = 8 of Melipona species (Kerr et al., 1952). Several Meliponini genus have been studied in detail at the cytogenetic level aiming at the comprehension of the karyotype evolution of stingless bees such as: Leurotrigona (Pompolo and Campos, 1995); Frieseomelitta (Moreira, 1997), Plebeia (Caixeiro and Pompolo, 1998) and Melipona (Rocha and Pompolo, 1998; Rocha et al., 2002). These modern cytogenetic data have shown interespecific differences that cannot sustain the Polyploidy Hypothesis mentioned. Alternatively another karyotype evolution theory, the Minimum Interaction Theory (Imai et al. 1986, 1988, 1994), postulated for Australian ants, has also been accepted as a possible model for the karyotype evolution of Meliponini bees (Pompolo, 1992). This theory states that primitive karyotypes had small numbers of large chromosomes and, as time went by, theses chromosomes got smaller and increased in number by centric fission that would prevent deleterious interactions within the interphase nucleus, such as translocations.

Detailed study of each Meliponini genus at the cytogenetic level will provide the necessary data to verify if this Theory could also be applied to the stingless bees or whether it would be necessary to postulate another hypothesis to understand the karyotype evolution of this important group which is responsible for the pollination of 40 to 90% of wild plant species, depending on the ecosystem (Kerr, et al. 1996).

The objective of the present scientific note was to contribute to the knowledge of the Partamona genus at the cytogenetic level. According to Pedro (1998), 32 species of Partamona have been described so far, but few have been characterized cytogenetically yet: P. personi (Tarelho, 1973); P. mulata, P. vicina, P. ayilae, Partamona sp.n. (Brito-Ribon, et al., 1999); and Partamona sp. aff. nigrior (Brito, 1998), all presenting 2n = 34 e n = 17 chromosomes. There is also Partamona helleri (Costa et al., 1992, Brito et al. 1997, Tosta et al., 1998) which presents 2n = 34 chromosomes and a B chromosome system varying from 0 to 4.

In this short communication, we describe the karyotype of Partamona peckolti, a species that occurs in the tropical rainforests of central America, the Caribbean and Pacific coasts, Colombia and Equador (Camargo, 1980), presenting the chromosome number, C banding pattern and fluorochrome AT and GC specific staining.

Material and Methods

The biological material was collected from a nest associated with a Bromeliacea plant, in San Francisco de Las Pampas village (00°25'182" S and 79°00'183" W), Cotopaxi province, Ecuador. Slides with metaphases were prepared from 30 post-defecant larvae cerebral ganglion according to the technique described by Imai et al. (1988). Chromosome banding techniques were applied as C banding according to Sumner (1972) and fluorochrome sequential staining DA - DAPI - Chromomycin A₃ (Schweizer, 1980). Sequential treatment, C banding followed by DA - DAPI - CMA₃ staining was done using the techniques in the same way as done separately. Another sequential staining with DA - CMA₃followed by AgNOR treatment was also applied using the Schweizer (1980) protocol and silver impregnation as described by Howell and Black (1980). The metaphases were photographed in photomicroscope Olympus BX60, with FUJI HR II ISO 40 and KODAK GOLD ULTRA ISO 100 films. The karyotypes were mounted in increasing order of the chromosome length.

Results and Discussion

Partamona peckolti presented 2n = 34 chromosomes as observed in other species of the genus (Tarelho, 1973; Brito 1998; Brito-Ribon et al., 1999) and conventional staining revealed a secondary constriction in the first pair of the karyotype not observed in any other Partamona species studied cytogenetically (Brito 1998, Brito-Ribon et al., 1999) (Figure 1A).

The C-banding pattern showed heterochromatin in the pericentromeric region of all chromosomes, as already observed in P. helleri (Brito, 1998) and Partamona sp.n. (Brito-Ribon et al., 1999) as well as a large hetercromatic block on the first karyotype pair, similarly to P. aylae, P. mulata and P. vicina (Brito-Ribon et al., 1999) (Table 1 and Figure 1B).

Thumbnail

Sequential staining with DA-DAPI-CMA₃ revealed a wide positive band in one large chromosome with both fluorochromes (Figure 2A and ^B , arrows). A similar wide CMA₃-positive band has already been observed in other Partamona species (Table 1). However, this large band disappeared when C banding was applied before sequential staining with DA-DAPI-CMA₃ (Figure 3A, ^B and ^C ). Another small DA/CMA₃⁺band seen with or without the C banding treatment which presented the shape and richness in GC base pairs led us to believe that we were evidencing a nucleolar organizer region (NOR) (Figure 3 arrowhead). This correlation between CMA₃⁺ bands and NORs is quite common among animals and in insects has been observed in: the grasshoppers Eyprepocnemis plorans and Locusta migratoria (Camacho, et al., 1991); the wasp Trypoxylon albitarse (Araújo et al., 2000; 2002); the lady beetle Olla v-nigrum (Maffei et al., 2001a); and in other Meliponini bees such as Melipona (Rocha and Pompolo, 1998; Rocha et al., 2002); Plebeia (Caixeiro, 1999) and Friesella schrottkyi (Mampumbu, 2002). The location of these regions by the classical technique of Howell and Black (1980) is difficult on Meliponinae chromosomes that was effectively achieved only in Tetragonisca angustula (Menezes, 1997), Melipona (Maffei et al., 2001b; Rocha et al., 2002); Plebeia (Maffei et al., 2001b) and Friesella schrottkyi (Mampumbu, 2002). Conversely, correspondence of DA-CMA₃ and AgNOR staining could be observed at interphase nuclei (Figure 4A and ^B ). As the correlation among positive staining with DA-CMA₃; AgNOR and fluorescent in situ hybridization with 18S rDNA probe has been observed for two another Partamona species, P. helleri and P. aff. nigrior (Brito, 1988), we indeed accepted that structure (^{Figure 3C} ) as a NOR.

Many studies have been carried out for a better understanding of the evolution of the Partamona genus: taxonomy revision (Pedro, 1998), provisioning and oviposition process behavior of nine species (Azevedo, 2001); molecular study of B chromosomes of P. helleri (Tosta, 2001); mitochondrial genome characterization of P. mulata and P. helleri (Brito and Arias, 2001). In this context, Cytogenetics can still contribute greatly to the knowledge of the relations among Partamona species to further cytotaxonomy treatment of the data. Nevertheless, to achieve this purpose, more karyotype characterizations are needed as many Partamona species persist even without their chromosome number known. Furthermore, the better comprehension of the relations among Partamona species, especially at the cytogenetic level, will contribute to the comprehension of the karyotype evolution of the Meliponinae bees as a whole.

Acknowlegdments

Research supported by Fundação de Amparo à Pesquisa do Estado de Minas Gerais (FAPEMIG), Fundação Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES), Conselho Nacional de Pesquisa (CNPq) and Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP). We are grateful to Dr. Giovanni Onore (Universidad Catolica Del Ecuador) for receiving Giselle A. Azevedo in Quito, Dr. Ronaldo Zucchi (Departamento de Biologia - FFCLRP) for encouragement, to MS Sidnei Mateus (Departamento de Biologia - FFCLRP), and to Mr. Cesar Tapi for help with nest collection.

Associate Editor: Catarina Satie Takahashi

Received: May 31, 1999

accepted: December 4, 2002

Araújo SMR, Pompolo SG, Dergam JAS and Campos, LAO (2000) The B chromosome system of Trypoxylon (Trypargilum) albitarse (Hymenoptera, Sphecidae). 1. Banding analysis. Cytobios, 101(1):7-13.
Araújo SMR, Pompolo SG, Perfectti F and Camacho JPM (2002) Genetic load caused by variation in the amount of rDNA in a wasp. Chromosome Res 10:607-613.
Azevedo GG (2001) Estudo etológico-comparado de alguns táxons de Partamona Schwarz e Parapartamona Schwarz (Hymenoptera, Apidae, Meliponini). PhD Thesis, Universidade de São Paulo, Ribeirão Preto.
Brito RM, Costa MA and Pompolo SG (1997) Characterization and distribution of supernumerary chromosomes in 23 colonies of Partamona helleri (Hymenoptera, Apidae, Meliponinae). Brazil J Genet 20(2):185-188.
Brito, RM (1998) Caracterização citogenética de duas espécies do gênero Partamona, Schwarz 1939 (Hymenoptera, Apidae, Melponinae). MS Dissertation, Universidade Federal de Viçosa, Viçosa.
Brito-Ribon RM, Miyazawa CS and Pompolo SG (1999) First Karyotype Characterization of four Species of Partamona (Friese, 1980) (Hymenoptera, Apidae, Meliponini) in Mato Grosso State - Brazil. Cytobios 100:19-26.
Brito RM and Arias MC (2001) Caracterização parcial do genoma mitocondrial de duas espécies do gênero Partamona (Hymenoptera, Apidae, Meliponinae) por meio de RFLP. CD-ROM.47° Congresso Nacional de Genética, Águas de Lindóia, Brazil.
Camacho JPM, Cabrero J and Viseras E (1991) G banding in two species of grasshoppers and its relationships to C, N, and fluorescence banding techniques. Genome 34:638-643.
Caixeiro APA and Pompolo SG (1998) Análise citogenética da heterocromatina constitutiva de duas espécies do gênero Plebeia (Hymenoptera, Apidae, Meliponinae) por meio de bandamento C e fluorocromos. Genet Mol Biol 21(3):49.
Caixeiro APA (1999) Caracterização citogenética da heterocromatina constitutiva e sua implicação na evolução do cariótipo de espécies do gênero Plebeia (Hymenoptera: Apinae, Meliponini). MS Dissertation, Universidade Federal de Viçosa, Viçosa.
Costa MA, Pompolo SG and Campos LAO (1992) Supernumerary chromosomes in Partamona cupira (Hymenoptera, Apidae, Meliponinae). Rev Brasil Genet 15:801-806.
Howell W and Black DA (1980) Controlled silver-staining of nucleolus organizer regions with a protective colloidal developer: a 1-step method. Experientia 36:1014 -1015.
Imai HT, Maruyama T, Gojobori T, Inoue Y and Crozier RH (1986) Theoretical bases for karyotype evolution.The minimu-interaction hypothesis. Am Nat 128:900-920.
Imai HT, Taylor RW and Crozier RH (1988) Modes of spontaneous chromosomal mutation and karyotype evolution in ants with reference to the Minimun Interaction Hypothesis. Japn J Genet 63:159-185.
Imai HT, Taylor RW and Crozier RH (1994) Experimental bases for the minimum interaction theory. I. Chromosome evolution in ants of the Myrmecia pilosula species complex (Hymenoptera: Formiciinae: Myrmecinae). Jpn J Genet 69:137-182
Kerr WE (1952) A variação do número de cromosomas na evolução dos Hymenoptera. Estrato Scientia Genética IV(3):182-190.
Kerr WE, Carvalho GA and Nascimento VA (1996) Abelha uruçu. Biologia, manejo e conservação. Acangaú, Belo Horizonte, 144 pp.
Maffei EMD, Pompolo SG, Campos LAO and Petitpierre E (2001a) Sequential FISH analysis with rDNA genes and Ag-NOR banding in the lady beetle Olla v-nigrum (Coleoptera: Coccinellidae). Hereditas 135:13-18.
Maffei EMD, Pompolo SG, Silva-Jr JC, Caixeiro APA, Rocha MP and Dergam JA (2001b) Silver staining of nucleolar organizer regions (NORs) in some species of Hymenoptera (bees and parasitic wasps) and Coleoptera (lady beetle). Cytobios 104:119-125.
Mampumbu AR (2002) Análise citogenética da heterocromatina e da NOR em populações de abelhas sem ferrão Friesella schrottkyi (FRIESE, 1900) (Hymenoptera: Apidae: Meliponini). MS Dissertation, Unicamp, Campinas.
Menezes MBF (1997) Caracterização citogenética e análise da heterocromatina constitutiva em Tetragonisca angustula (Hymenoptera, Meliponinae). MS Dissertation. Universidade Federal de Viçosa, Viçosa.
Moreira CMLC (1997) Caracterização cariotípica de três espécies do gênero Friesomelitta (Hymenoptera, Apidae, Meliponinae). MS Dissertation. Universidade Federal de Viçosa, Viçosa.
Pedro SRM (1998) Meliponini neotropicais: o gênero Partamona Schwarz, 1939 (Hymenoptera, Apidae): taxonomia e biogeografia. PhD Thesis. Universidade de São Paulo, Ribeirão Preto.
Pompolo SG (1992) Estudos citogenéticos em Meliponinae. Naturalia (special ed.): 62-66.
Pompolo SG and Campos LAO (1995) Karyotypes of two species of sintgless bees, Leurotrigona muelleri and Leurotrigona pusilla (Hymenoptera, Meliponinae). Rev Brasil Genet 18(2):181-184.
Rocha MP and Pompolo SG (1998) Karyotypes and heterochromatin variation (C-bands) in Melipona species (Hymenoptera, Apidae, Meliponinae). Genet Mol Biol 21(1):41-45.
Rocha MP, Pompolo SG, Dergam JA, Fernandes A and Campos LAO (2002) DNA characterization and karyotypic evolution in the bee genus Melipona (Hymenoptera, Meliponini). Hereditas 136:19-27.
Schweizer D (1980) Simultaneous fluorescent staining of R bands and specific heterochromatic regions (DA DAPI-bands) in human chromosomes. Cytogent Cell Genet 27:190-193.
Sumner AT (1972) A simple technique for demonstrating centromeric heterochromatin. Exp Cell Res 75:304-306.
Tarelho, ZVS (1973) Contribuição ao estudo citogenético dos Apoidea. MS Dissertation, Universidade de São Paulo, Ribeirão Preto.
Tosta VC, Waldschmidt AM Brito, RM Pompolo SG, Salomão TMF, Barros EG and Campos LAO (1998) Marcadores moleculares RAPD ligados à presença de cromossomos supranumerários em Partamona helleri (Hymenoptera, Apidae). Genet Mol Biol 21, suppl.: 83. 44° Congresso Nacional de Genética, Águas de Lindóia, Brazil.
Tosta VC, Salomão TMF, Tavares MG, Pompolo SG, Barros EG and Campos LAO (2001) Identificação, isolamento e clonagem de marcadores moleculares RAPD associados a cromossomos B em Partamona helleri (Hymenoptera, apidea, Meliponiniae). CD-ROM. 47° Congresso Nacional de Genética, Águas de Lindóia, Brazil.

Correspondence to

Silvia das Graças Pompolo

E-mail:

spompolo@ufv.br

Publication Dates

Publication in this collection
05 Sept 2003
Date of issue
2003

History

Accepted
04 Dec 2002
Received
31 May 1999

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] Araújo SMR, Pompolo SG, Dergam JAS and Campos, LAO (2000) The B chromosome system of Trypoxylon (Trypargilum) albitarse (Hymenoptera, Sphecidae). 1. Banding analysis. Cytobios, 101(1):7-13.

[2] Araújo SMR, Pompolo SG, Perfectti F and Camacho JPM (2002) Genetic load caused by variation in the amount of rDNA in a wasp. Chromosome Res 10:607-613.

[3] Azevedo GG (2001) Estudo etológico-comparado de alguns táxons de Partamona Schwarz e Parapartamona Schwarz (Hymenoptera, Apidae, Meliponini). PhD Thesis, Universidade de São Paulo, Ribeirão Preto.

[4] Brito RM, Costa MA and Pompolo SG (1997) Characterization and distribution of supernumerary chromosomes in 23 colonies of Partamona helleri (Hymenoptera, Apidae, Meliponinae). Brazil J Genet 20(2):185-188.

[5] Brito, RM (1998) Caracterização citogenética de duas espécies do gênero Partamona, Schwarz 1939 (Hymenoptera, Apidae, Melponinae). MS Dissertation, Universidade Federal de Viçosa, Viçosa.

[6] Brito-Ribon RM, Miyazawa CS and Pompolo SG (1999) First Karyotype Characterization of four Species of Partamona (Friese, 1980) (Hymenoptera, Apidae, Meliponini) in Mato Grosso State - Brazil. Cytobios 100:19-26.

[7] Brito RM and Arias MC (2001) Caracterização parcial do genoma mitocondrial de duas espécies do gênero Partamona (Hymenoptera, Apidae, Meliponinae) por meio de RFLP. CD-ROM.47° Congresso Nacional de Genética, Águas de Lindóia, Brazil.

[8] Camacho JPM, Cabrero J and Viseras E (1991) G banding in two species of grasshoppers and its relationships to C, N, and fluorescence banding techniques. Genome 34:638-643.

[9] Caixeiro APA and Pompolo SG (1998) Análise citogenética da heterocromatina constitutiva de duas espécies do gênero Plebeia (Hymenoptera, Apidae, Meliponinae) por meio de bandamento C e fluorocromos. Genet Mol Biol 21(3):49.

[10] Caixeiro APA (1999) Caracterização citogenética da heterocromatina constitutiva e sua implicação na evolução do cariótipo de espécies do gênero Plebeia (Hymenoptera: Apinae, Meliponini). MS Dissertation, Universidade Federal de Viçosa, Viçosa.

[11] Costa MA, Pompolo SG and Campos LAO (1992) Supernumerary chromosomes in Partamona cupira (Hymenoptera, Apidae, Meliponinae). Rev Brasil Genet 15:801-806.

[12] Howell W and Black DA (1980) Controlled silver-staining of nucleolus organizer regions with a protective colloidal developer: a 1-step method. Experientia 36:1014 -1015.

[13] Imai HT, Maruyama T, Gojobori T, Inoue Y and Crozier RH (1986) Theoretical bases for karyotype evolution.The minimu-interaction hypothesis. Am Nat 128:900-920.

[14] Imai HT, Taylor RW and Crozier RH (1988) Modes of spontaneous chromosomal mutation and karyotype evolution in ants with reference to the Minimun Interaction Hypothesis. Japn J Genet 63:159-185.

[15] Imai HT, Taylor RW and Crozier RH (1994) Experimental bases for the minimum interaction theory. I. Chromosome evolution in ants of the Myrmecia pilosula species complex (Hymenoptera: Formiciinae: Myrmecinae). Jpn J Genet 69:137-182

[16] Kerr WE (1952) A variação do número de cromosomas na evolução dos Hymenoptera. Estrato Scientia Genética IV(3):182-190.

[17] Kerr WE, Carvalho GA and Nascimento VA (1996) Abelha uruçu. Biologia, manejo e conservação. Acangaú, Belo Horizonte, 144 pp.

[18] Maffei EMD, Pompolo SG, Campos LAO and Petitpierre E (2001a) Sequential FISH analysis with rDNA genes and Ag-NOR banding in the lady beetle Olla v-nigrum (Coleoptera: Coccinellidae). Hereditas 135:13-18.

[19] Maffei EMD, Pompolo SG, Silva-Jr JC, Caixeiro APA, Rocha MP and Dergam JA (2001b) Silver staining of nucleolar organizer regions (NORs) in some species of Hymenoptera (bees and parasitic wasps) and Coleoptera (lady beetle). Cytobios 104:119-125.

[20] Mampumbu AR (2002) Análise citogenética da heterocromatina e da NOR em populações de abelhas sem ferrão Friesella schrottkyi (FRIESE, 1900) (Hymenoptera: Apidae: Meliponini). MS Dissertation, Unicamp, Campinas.

[21] Menezes MBF (1997) Caracterização citogenética e análise da heterocromatina constitutiva em Tetragonisca angustula (Hymenoptera, Meliponinae). MS Dissertation. Universidade Federal de Viçosa, Viçosa.

[22] Moreira CMLC (1997) Caracterização cariotípica de três espécies do gênero Friesomelitta (Hymenoptera, Apidae, Meliponinae). MS Dissertation. Universidade Federal de Viçosa, Viçosa.

[23] Pedro SRM (1998) Meliponini neotropicais: o gênero Partamona Schwarz, 1939 (Hymenoptera, Apidae): taxonomia e biogeografia. PhD Thesis. Universidade de São Paulo, Ribeirão Preto.

[24] Pompolo SG (1992) Estudos citogenéticos em Meliponinae. Naturalia (special ed.): 62-66.

[25] Pompolo SG and Campos LAO (1995) Karyotypes of two species of sintgless bees, Leurotrigona muelleri and Leurotrigona pusilla (Hymenoptera, Meliponinae). Rev Brasil Genet 18(2):181-184.

[26] Rocha MP and Pompolo SG (1998) Karyotypes and heterochromatin variation (C-bands) in Melipona species (Hymenoptera, Apidae, Meliponinae). Genet Mol Biol 21(1):41-45.

[27] Rocha MP, Pompolo SG, Dergam JA, Fernandes A and Campos LAO (2002) DNA characterization and karyotypic evolution in the bee genus Melipona (Hymenoptera, Meliponini). Hereditas 136:19-27.

[28] Schweizer D (1980) Simultaneous fluorescent staining of R bands and specific heterochromatic regions (DA DAPI-bands) in human chromosomes. Cytogent Cell Genet 27:190-193.

[29] Sumner AT (1972) A simple technique for demonstrating centromeric heterochromatin. Exp Cell Res 75:304-306.

[30] Tarelho, ZVS (1973) Contribuição ao estudo citogenético dos Apoidea. MS Dissertation, Universidade de São Paulo, Ribeirão Preto.

[31] Tosta VC, Waldschmidt AM Brito, RM Pompolo SG, Salomão TMF, Barros EG and Campos LAO (1998) Marcadores moleculares RAPD ligados à presença de cromossomos supranumerários em Partamona helleri (Hymenoptera, Apidae). Genet Mol Biol 21, suppl.: 83. 44° Congresso Nacional de Genética, Águas de Lindóia, Brazil.

[32] Tosta VC, Salomão TMF, Tavares MG, Pompolo SG, Barros EG and Campos LAO (2001) Identificação, isolamento e clonagem de marcadores moleculares RAPD associados a cromossomos B em Partamona helleri (Hymenoptera, apidea, Meliponiniae). CD-ROM. 47° Congresso Nacional de Genética, Águas de Lindóia, Brazil.

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