Purification, partial characterization and role in lipid transport to developing oocytes of a novel lipophorin from the cowpea weevil, Callosobruchus maculatus

Ximenes, A A; Oliveira, Giselle A.; Bittencourt‐Cunha, Paula; Tomokyo, M; Leite, D B; Folly, Evelize; Golodne, Daniel M.; Atella, Geórgia C.

doi:10.1590/s0100-879x2006005000191

Cited by 5 publications

(3 citation statements)

References 41 publications

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“…For the vitellin (the final storage form of vitellogenin in the oocyte) of two polychaetes, a lipid content of 16% and 50% has been reported (Baert et al 1984;Lee et al 2005). On the other hand, the non-sexspecific lipoproteins among the large lipid transfer proteins have also been shown to contribute to egg yolk, at least in crustacean (Lubzens et al 1997;Ravid et al 1999), insect Telfer et al 1991;Ximenes et al 2008), and chicken eggs (Steyrer et al 1990). In oocytes of some vertebrates (i.e., trout, frog, and hen) and in some insects, the incorporation of both yolk and lipoproteins is also evident from the presence of the corresponding receptors (Steyrer et al 1990;Cheon et al 2001 and references cited therein).…”

Section: Introductionmentioning

confidence: 99%

Lipoprotein mediated lipid uptake in oocytes of polychaetes (Annelida)

Schenk

Hoeger

2009

Cell Tissue Res

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The uptake of the 1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate (DiI)-labeled sex-unspecific Nereis lipoprotein was investigated in oocytes of the nereidid polychaetes Nereis virens and Platynereis dumerilii. The fluorescence label was first observed in endocytic vesicles (<1 microm diameter), which later fused to larger vesicles (2-3 microm); these were finally incorporated into existing unlabeled yolk granules (5-6 microm). In Platynereis oocytes, the fusion of endocytic vesicles was delayed in oocytes at their final stage of development compared with those at an early stage of development. Lipoprotein double-labeled with fluorescein isothiocyanate (FITC) and DiI revealed that both the protein and the lipid moiety remained co-localized during incorporation into the yolk granules of the oocyte. No labeling of the cytoplasmic lipid droplets was observed. In N. virens, unlabeled Nereis lipoprotein was effective as a competitive inhibitor of DiI-labeled Nereis lipoprotein. Ligand blot experiments demonstrated the presence of a lipoprotein receptor with an apparent molecular mass of 120 kDa, which is different from that of the known yolk protein receptor. This indicates the presence, in the polychaete oocyte, of two distinct receptors mediating yolk protein and lipoprotein uptake, respectively. Thus, the sex-unspecific lipoprotein contributes to the lipid supply of the growing oocyte in addition to the known uptake of the yolk-protein-associated lipids. The absence of label in the cytoplasmic lipid droplets, even after prolonged incubation with labeled lipoprotein, suggests that these lipids arise either by the breakdown and resynthesis of lipoprotein-derived lipids and/or by de novo synthesis within the oocyte.

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Section: Introductionmentioning

confidence: 99%

Lipoprotein mediated lipid uptake in oocytes of polychaetes (Annelida)

Schenk

Hoeger

2009

Cell Tissue Res

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“…Lipoproteins from adult male (n=50) and female (n=25) lice were purified according to the procedure previously described in [ 22 , 56 , 57 ]. Briefly, male and female animals were homogenized separately in ice cold phosphate buffer saline (PBS; 0.10 M sodium phosphate, pH 7.0, and 0.15 M NaC1) in the presence of protease-inhibitor cocktail (Sigma-Aldrich).…”

Section: Methodsmentioning

confidence: 99%

Two apolipoproteins in salmon louse (Lepeophtheirus salmonis), apolipoprotein 1 knock down reduces reproductive capacity

Khan

Dalvin

Nilsen

et al. 2021

Biochemistry and Biophysics Reports

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The salmon louse, Lepeophtheirus salmonis is an ectoparasite of salmonid fish in the Northern Hemisphere, causing large economical losses in the aquaculture industry and represent a threat to wild populations of salmonids. Like other oviparous animals, it is likely that female lice use lipoproteins for lipid transport to maturing oocytes and other organs of the body. As an important component of lipoproteins, apolipoproteins play a vital role in the transport of lipids through biosynthesis of lipoproteins. Apolipoproteins have been studied in detail in different organisms, but no studies have been done in salmon lice. Two apolipoprotein encoding genes ( LsLp1 and LsLp2 ) were identified in the salmon lice genome. Transcriptional analysis revealed both genes to be expressed at all stages from larvae to adult with some variation, LsLp1 generally higher than LsLp2 and both at their highest levels in adult stages of the louse. In adult female louse, the LsLp1 and LsLp2 transcripts were found in the sub-epidermal tissue and the intestine. RNA interference-mediated knockdown of LsLp1 and LsLp2 in female lice resulted in reduced expression of both transcripts. LsLp1 knockdown female lice produced significantly less offspring than control lice, while knockdown of LsLp2 in female lice caused no reduction in the number of offspring. These results suggest that LsLp1 has an important role in reproduction in female salmon lice.

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“…Thus, they may have higher total lipid percentages than males, although it varies by species. Ximenes et al [104] with radioactive labeling studies, found fatty acids were used in egg production in C. maculatus females, Nwanze et al [94] found females contain more total lipids and triglycerides than males. It was determined that the total fatty acid amount in A. grandis adults was very low in the first four days of adult life and then increased with age [96], while the amount of lipids in the ovaries of T. molitor females increased during the first three days of adult life and then decreased [99].…”

Section: Sönmez Sinop Uni J Nat Sci 7(1): 81-101 (2022) Issn: 2536-4383mentioning

confidence: 99%

The Effect of Temperature and Nutrient on Developmental Biology and Physiology of Stored-Product Species of Coleoptera

Sönmez

2022

Sinop Üniversitesi Fen Bilimleri Dergisi

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Insect pests of stored products are organisms that damage agricultural products in fields or warehouses and cause a lot of product loss. For this reason, it is an important problem to protect the products in warehouses after harvest. Producers and researchers try many chemical methods to prevent this damage in warehouses. However, in recent years, as the harm of these chemicals to the environment and mammalian health has been understood, researchers have been trying to find different methods. Insects develop more and more resistance to these chemicals, as they adapt to the environment very quickly. For this reason, the biology and physiology of insects must be well known before the fight against these insects. The better the biology and physiology of these insects are known, the more new methods can be developed for integrated control methods against this insect. Since insects are poicliothermic, that is, dependent on changes in environmental temperatures, temperature is very important in their development. Another factor affecting the developmental stages of the insect is nutrient. Temperature and food together can limit insect developmental stages. While high temperatures prolong developmental stages, they can have the opposite effect on longevity. Or, insects feeding on poor quality nutrient can affect egg size, adult size, or horn and cuticle development, as seen in some Coleopters. In this review study, the effects of temperature and nutrient on the biology and physiology of storage product pest Coleopters were evaluated.

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Purification, partial characterization and role in lipid transport to developing oocytes of a novel lipophorin from the cowpea weevil, Callosobruchus maculatus

Cited by 5 publications

References 41 publications

Lipoprotein mediated lipid uptake in oocytes of polychaetes (Annelida)

Lipoprotein mediated lipid uptake in oocytes of polychaetes (Annelida)

Two apolipoproteins in salmon louse (Lepeophtheirus salmonis), apolipoprotein 1 knock down reduces reproductive capacity

The Effect of Temperature and Nutrient on Developmental Biology and Physiology of Stored-Product Species of Coleoptera

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