Evidence for two vitellogenin‐related genes in <i>Leucophaea maderae</i>: The protein primary structure and its processing

Tufail, Muhammad; Bembenek, Jadwiga; Elgendy, Azza; Takeda, Makio

doi:10.1002/arch.20212

Cited by 28 publications

(16 citation statements)

References 45 publications

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“…One alteration of this model is found in hemimetabolous insects where the Vgs contain multiple K/RXXR cleavage sites that lead to processing resulting in the production of several subunits of varying molecular weights that associate as vitellogenin. Although multiple sites were identified, it was apparent that only a limited number of K/RXXR sites were cleaved to produce large subunit fragments that associated as Vgs in the American cockroach, Periplaneta americana L. (Blattodea: Blattidae) (Tufail et al, 2000(Tufail et al, , 2001 and Leucophaea maderae (Blattodea: Blaberoidea) (Tufail & Takeda, 2002;Tufail et al, 2007).…”

Section: Discussionmentioning

confidence: 99%

“…Vgs also have conserved residues GI/LCG in the C-terminus region, which appear to be involved in oligomerization of the protein (Thompson et al, 2007;Khalil et al, 2011). Additionally, arthropod Vgs have one to several protease cleavage sites K/RXXR that result in proteolytic cleavage of the nascent polypeptide into two to several subunits (Barr et al, 1991;Takahashi et al, 1994;Rouille et al, 1995;Denault & Leduc, 1996;Tufail et al, 2007). The only exceptions are the insects of the order Apocrita, which lack cleavage sites in the Vgs and produce single large proteins.…”

Section: Introductionmentioning

confidence: 99%

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Variable induction of vitellogenin genes in the varroa mite, Varroa destructor (Anderson & Trueman), by the honeybee, Apis mellifera L, host and its environment

Cordon¹,

Shirk²,

Duehl³

et al. 2013

Insect Molecular Biology

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Transcript levels of vitellogenins (Vgs) in the varroa mite, Varroa destructor (Anderson & Trueman), were variably induced by interactions between the developing honeybee, Apis mellifera L, as a food source and the capped honeybee cell environment. Transcripts for two Vgs of varroa mites were sequenced and putative Vg protein products characterized. Sequence analysis of VdVg1 and VdVg2 proteins showed that each had greater similarity with Vg1 and Vg2 proteins from ticks, respectively, than between themselves and were grouped separately by phylogenetic analyses. This suggests there was a duplication of the ancestral acarine Vg gene prior to the divergence of the mites and ticks. Low levels of transcript were detected in immature mites, males and phoretic females. Following cell invasion by phoretic females, VdVg1 and VdVg2 transcript levels were up-regulated after cell capping to a maximum at the time of partial cocoon formation by the honeybee. During oviposition the two transcripts were differentially expressed with higher levels of VdVg2 being observed. A bioassay based on assessing the transcript levels was established. Increases in VdVg1 and VdVg2 transcripts were induced experimentally in phoretic females when they were placed inside a cell containing an early metamorphosing last instar bee but not when exposed to the metamorphosing bee alone. The variable response of Vg expression to the food source as well as environmental cues within the capped cell demonstrates that perturbation of host-parasite interactions may provide avenues to disrupt the reproductive cycle of the varroa mites and prevent varroasis.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Variable induction of vitellogenin genes in the varroa mite, Varroa destructor (Anderson & Trueman), by the honeybee, Apis mellifera L, host and its environment

Cordon¹,

Shirk²,

Duehl³

et al. 2013

Insect Molecular Biology

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“…Among the six Vtg genes ( Vit-1 to Vit-6 ) of the nematode Caenorhabditis elegans , high sequence identity was observed between Vit-1 and Vit-2 (95% nt identity) and among Vit-3 , Vit-4 and Vit-5 (above 96%), while Vit-3 and Vit-4 are located in tandem on the X chromosome and are nearly identical to each other in the coding region [33]. Two Vtg genes located at different loci were identified from the cockroach Leucophaea maderae which shared high similarity (96% identity at the amino acids level) [34]. In vertebrates, four Vtg genes have been identified from the frog Xenopus laevis which fall into two pairs that share approximately 95% sequence identity within pairs, while approximately 65.5% identity between pairs [1].…”

Section: Discussionmentioning

confidence: 99%

Duplication, concerted evolution and purifying selection drive the evolution of mosquito vitellogenin genes

et al. 2010

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BackgroundMosquito vitellogenin (Vtg) genes belong to a small multiple gene family that encodes the major yolk protein precursors required for egg production. Multiple Vtg genes have been cloned and characterized from several mosquito species, but their origin and molecular evolution are poorly understood.ResultsHere we used in silico and molecular cloning techniques to identify and characterize the evolution of the Vtg gene family from the genera Culex, Aedes/Ochlerotatus, and Anopheles. We identified the probable ancestral Vtg gene among different mosquito species by its conserved association with a novel gene approximately one kilobase upstream of the start codon. Phylogenetic analysis indicated that the Vtg gene family arose by duplication events, but that the pattern of duplication was different in each mosquito genera. Signatures of purifying selection were detected in Culex, Aedes and Anopheles. Gene conversion is a major driver of concerted evolution in Culex, while unequal crossover is likely the major driver of concerted evolution in Anopheles. In Aedes, smaller fragments have undergone gene conversion events.ConclusionsThe study shows concerted evolution and purifying selection shaped the evolution of mosquito Vtg genes following gene duplication. Additionally, similar evolutionary patterns were observed in the Vtg genes from other invertebrate and vertebrate organisms, suggesting that duplication, concerted evolution and purifying selection may be the major evolutionary forces driving Vtg gene evolution across highly divergent taxa.

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“…We have characterized both at biochemical and molecular levels two Vg genes each of the two cockroach species, Periplaneta americana (L.) and L. maderae (Tufail et al . , , , ; Tufail & Takeda , ). Multiple Vg genes have also been sequenced from other insect species including Locusta migratoria (R and F) (Wyatt et al .…”

Section: Vg Genes and Their Regulation In Insectsmentioning

confidence: 99%

Regulation of vitellogenin genes in insects

Tufail

Nagaba

Elgendy

et al. 2014

Entomological Science

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127

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Vitellogenins (Vg) genes code for the major egg yolk protein precursor in insects and many other oviparous species. In insects, the Vg gene is expressed extra-ovarially in the fat body in sex-, tissue-and stage-specific manners. During the reproductive phase, the Vg mRNA is expressed in large quantities, which is then translated, secreted into hemolymph and ultimately taken up by the developing oocytes through receptormediated endocytosis. Once sequestered, the Vgs are stored as vitellin (Vn), the main nutritional reserve for the developing embryo. The regulation of Vg genes is directly under the control of hormones at the transcriptional level. Hormones involved in Vg gene transcription are juvenile hormone (JH), ecdysteroids and some neuropeptides. The overall understanding that has emerged is that the insects can be classified, based on the system of hormonal regulation of Vg gene transcription, into three groups: (i) insects (like most of hemipterans) that use only JH for Vg gene transcription; (ii) insects (like dipterans) that need both JH and ecdysteroids for Vg regulation; and (iii) insects like lepidopterans that require JH, ecdysteroids and additional hormones to regulate their reproductive biology. However, why insect species diverge in using different hormones to govern their reproductive physiology remains unclear. The present contribution focuses on the current status of knowledge regarding the regulation of Vg genes in insects. Besides a brief information on biochemical and molecular features, the role of Vg genes as a target of endocrine disruptors will be addressed. Also, the molecular mechanism of Vg gene regulation will be discussed.

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Evidence for two vitellogenin‐related genes in Leucophaea maderae: The protein primary structure and its processing

Cited by 28 publications

References 45 publications

Variable induction of vitellogenin genes in the varroa mite, Varroa destructor (Anderson & Trueman), by the honeybee, Apis mellifera L, host and its environment

Variable induction of vitellogenin genes in the varroa mite, Varroa destructor (Anderson & Trueman), by the honeybee, Apis mellifera L, host and its environment

Duplication, concerted evolution and purifying selection drive the evolution of mosquito vitellogenin genes

Regulation of vitellogenin genes in insects

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