As espécies de Chydoridae correspondem a maior diversidade de Cladocera. Estes organismos tem sido objeto de diversos estudos, com enfoque para seu papel no fluxo de energia nos ambientes aquáticos, uma vez que habitam a região litoral dos corpos d'água que recebem os primeiros impactos decorrentes das atividades antrópicas. O objetivo deste estudo é conhecer o ciclo de vida de Coronatella rectangula (Sars, 1861), espécie encontrada em vários corpos d'água de Minas Gerais, Brasil. O ciclo de vida foi determinado através do cultivo em laboratório de fêmeas partenogenéticas, sob condições controladas. Culturas experimentais foram mantidas em câmaras de germinação com temperatura de 23,6(±0,5)ºC e fotoperíodo constante (12h claro/12h escuro). Os organismos foram alimentados com uma suspensão de 10(5) células.mL-1 da clorofícea Pseudokirchneriella subcapitata e 0,02 mL de uma suspensão mista de levedura e ração de peixe em igual proporção (1:1). Cinquenta fêmeas com ovos foram isoladas e mantidas até a produção de neonatas. Trinta neonatas com menos de 24 horas foram colocadas em potes de 50 mL de polipropileno e conservadas em câmara de germinação. Estes organismos foram observados diariamente para obtenção dos parâmetros do ciclo de vida. Foram calculadas também a biomassa e a produção secundária. O tempo de desenvolvimento embrionário dos espécimes de C. rectangula foi de 1,68 (±0,13) dias e a idade da primípara (tempo de desenvolvimento pós- embrionário) foi de 2,48 (±0,45) dias. A fecundidade média foi de 2 ovos/fêmea/ninhada e o número total de ovos produzidos durante todo o ciclo de vida foi de 27,8 ovos. Durante todo o ciclo de vida, espécimes de C. rectangula tiveram um máximo de 14 mudas, sendo dois ínstares no estágio juvenil. A biomassa total de C. rectangula foi de 36,66 µgPS.m-3 (9,83 µgPS.m-3 para o estágio juvenil e 26,82 µgPS.m-3 para adultos), e a produção secundária foi de 12,10 µgPS.m-3.dia-1 (8,34 µgPS.m-3.dia-1a produção de ovos e 3,76 µgPS.m-3.dia-1 para o estágio juvenil).

Species of Chydoridae provide the main diversity of the Cladocera. These organisms have been the subject of many studies; some dealing with their role in energy flow in aquatic ecosystems, since they inhabit the littoral region of water bodies which undergo the first impacts from anthropic activities. The aim of this study is to increase knowledge about the life cycle of Coronatella rectangula (Sars, 1861), a species found in several water bodies in the state of Minas Gerais, Brazil. The life cycle was determined by the culture of parthenogenetic females under controlled conditions in the laboratory. Experimental cultures were maintained in growth chambers at a constant temperature of 23.6(±0.5)ºC, through a 12 h light/12 h dark photoperiod. The organisms were fed on a suspension of Pseudokirchneriella subcapitata (Chlorophyceae) (10(5) cells.mL-1), and 0.02 mL of a mixed suspension of yeast and fish ration added per organism in equal proportions (1:1). Fifty parthenogenetic females with eggs were isolated and maintained until they produced neonates. Thirty of these neonates that had less than 24 hours were put in polypropylene bottles of 50 mL and kept in a germination chamber. These organisms were observed daily to obtain the parameters of the life cycle. Biomass and secondary production were also calculated. The embryonic development time of the specimens of C. rectangula was 1.68(±0.13) days and the time to reach primipara, was 2.48(±0.45) days. The mean fecundity of C. rectangula was two eggs/female/brood and the total number of eggs produced by the female during its life cycle was 27.8 eggs. During the whole life cycle, specimens of C. rectangula had a maximum of 14 seedlings, with two instars in the juvenile stage. Total biomass for C. rectangula was 36.66 µgDW.m-3(9.83 for the juvenile stage and 26.82 µgDW.m-3 for adults), and secondary production was 12.10 µgDW.m-3.day-1(8.34 µgDW.m-3.day-1 for egg production and 3.76 µgDW.m-3.day-1 for the juvenile stage).

Leishmania (Sauroleishmania) tarentolae has biotechnological potential for use as live vaccine against visceral leishmaniasis and as a system for the over expression of eukaryotic proteins that possess accurate post-translational modifications. For both purposes, new systems for protein expression in this non-pathogenic protozoan are necessary. The ribosomal RNA promoter proved to be a stronger transcription driver since its use yielded increased levels of recombinant protein in organisms of both genera Trypanosoma or Leishmania. We have evaluated heterologous expression systems using vectors with two different polypyrimidine tracts in the splice acceptor site by measuring a reporter gene transcribed from L. tarentolae RNA polymerase I promoter. Our data indicate that the efficiency of chloramphenicol acetyl transferase expression changed drastically with homologous or heterologous sequences, depending on the polypyrimidine tract used in the construct and differences in size and/or distance from the AG dinucleotide. In relation to the promoter sequence the reporter expression was higher in heterologous lizard-infecting species than in the homologous L. tarentolae or in the mammalian-infecting L. (Leishmania) amazonensis.