Your search keyword '"Stefano Cassanelli"' showing total 12 results

1. Transposon-mediated insertional mutagenesis unmasks recessive insecticide resistance in the aphid

Author

Michela, Panini, Olga, Chiesa, Bartlomiej J, Troczka, Mark, Mallott, Gian Carlo, Manicardi, Stefano, Cassanelli, Filippo, Cominelli, Alex, Hayward, Emanuele, Mazzoni, and Chris, Bass

Subjects

transposon, Evolution, fungi, food and beverages, Genes, Recessive, Biological Sciences, Evolution, Molecular, Insecticide Resistance, resistance, Mutagenesis, Insertional, Aphids, voltage-gated sodium channel, DNA Transposable Elements, Animals, Alleles

Abstract

Significance The ability to control damaging plant pests and vectors of animal disease is threatened by the emergence of insecticide resistance. Developing effective strategies to prevent, slow, or overcome resistance requires an understanding of the underlying genetic mechanisms. Here, we present an example of the evolution of insecticide resistance arising from transposable element–mediated disruption of a dominant insecticide-susceptible allele, resulting in expression of a recessive resistance allele and potent resistance. Our findings demonstrate how the adaptive potential of transposable elements can be revealed by environmental and genetic perturbation and that this can have profound and unexpected impacts on resistance. They also illustrate how combinations of mutations that individually confer no fitness benefit can interact to provide strong context-dependent fitness benefits., The evolution of resistance to insecticides threatens the sustainable control of many of the world’s most damaging insect crop pests and disease vectors. To effectively combat resistance, it is important to understand its underlying genetic architecture, including the type and number of genetic variants affecting resistance and their interactions with each other and the environment. While significant progress has been made in characterizing the individual genes or mutations leading to resistance, our understanding of how genetic variants interact to influence its phenotypic expression remains poor. Here, we uncover a mechanism of insecticide resistance resulting from transposon-mediated insertional mutagenesis of a genetically dominant but insecticide-susceptible allele that enables the adaptive potential of a previously unavailable recessive resistance allele to be unlocked. Specifically, we identify clones of the aphid pest Myzus persicae that carry a resistant allele of the essential voltage-gated sodium channel (VGSC) gene with the recessive M918T and L1014F resistance mutations, in combination with an allele lacking these mutations but carrying a Mutator-like element transposon insertion that disrupts the coding sequence of the VGSC. This results in the down-regulation of the dominant susceptible allele and monoallelic expression of the recessive resistant allele, rendering the clones resistant to the insecticide bifenthrin. These findings are a powerful example of how transposable elements can provide a source of evolutionary potential that can be revealed by environmental and genetic perturbation, with applied implications for the control of highly damaging insect pests.

Published

2021

2. Modulation of Drosophila suzukii type 1 tyramine receptor (DsTAR1) by monoterpenes: a potential new target for next generation biopesticides

Author

Stefano Civolani, Federica Ferrari, Giovanni Bernacchia, Girolamo Calo, Luca Finetti, Morena De Bastiani, and Stefano Cassanelli

Subjects

0106 biological sciences, 0301 basic medicine, Agonist, Biopesticides, biopesticides, medicine.drug_class, Health, Toxicology and Mutagenesis, Allosteric regulation, 01 natural sciences, Calcium in biology, LS1_11, Biogenic Amine, NO, 03 medical and health sciences, chemistry.chemical_compound, Downregulation and upregulation, Receptors, Biogenic Amine, Receptors, Drosophila suzukii, medicine, Animals, Humans, Receptor, LS9_5, Dynamic mass redistribution, G protein-coupled receptor, Essential oils, Monoterpenes, Tyramine receptor, HEK293 Cells, Biological Control Agents, Drosophila, biology, Essential Oils, General Medicine, Tyramine, biology.organism_classification, 010602 entomology, 030104 developmental biology, chemistry, Biochemistry, Agronomy and Crop Science

Abstract

This study proposes a biochemical and molecular model for the interaction between the Drosophila suzukii type 1 tyramine receptor (DsTAR1) and monoterpenes. A preliminary molecular and functional characterization of DsTAR1 cDNA revealed that a 1.8 kb long ORF codes for a 600 amino acid polypeptide featuring seven transmembrane domains, as expected for a GPCR. A stable HEK 293 cell line expressing DsTAR1 was tested for responsiveness to tyramine (TA) and octopamine (OA). In intracellular calcium mobilization studies, TA led to a concentration-dependent increase in [Ca2+]i (pEC50 ~ 6.40), completely abolished by pre-incubation with the antagonist yohimbine 1 μM. Besides, in dynamic mass redistribution (DMR) studies, TA evoked a positive DMR signal in a concentration-dependent manner (pEC50 ~ 6.80). The recombinant cell line was then used to test three monoterpenes (thymol, carvacrol and α-terpineol) as putative ligands for DsTAR1. The terpenoids showed no agonist effects in both DMR and calcium mobilization assays, but they increased the potency of the endogenous ligand, TA, acting as positive allosteric modulators. Moreover, expression analysis on adults D. suzukii, exposed for 24, 72 or 120 h to a sublethal concentration of the three monoterpenes, showed a downregulation of DsTAR1. This evidence has led to hypothesize that the downregulation of DsTAR1 might be a compensatory mechanism in response to the positive allosteric modulation of the receptor induced by monoterpenes. Therefore, these findings might be useful for the development of a new generation of biopesticides against Drosophila suzukii, targeting TAR1.

Published

2019

3. Testing Spirotetramat as an Alternative Solution to Abamectin forCacopsylla pyri(Hemiptera: Psyllidae) Control: Laboratory and Field Tests

Author

Alda Butturini, Elisa Anna Fano, M. G. Tommasini, Milvia Chicca, Stefano Cassanelli, M. Boselli, Stefano Civolani, and Vassilis Aschonitis

Subjects

Integrated pest management, Insecticides, Cacopsylla pyri, insecticide resistance, psylla control, spirotetramat, Insect Science, Ecology, Population, Context (language use), Insect Control, Hemiptera, Lethal Dose 50, Toxicology, chemistry.chemical_compound, Animals, Spiro Compounds, Nymph, education, Aza Compounds, PEAR, education.field_of_study, Ivermectin, biology, Ambientale, General Medicine, biology.organism_classification, chemistry, Abamectin, Pyrus communis

Abstract

Aim of the study was to investigate the performance of the new insecticide "spirotetramat" as an alternative solution of "abamectin" for the control of Cacopsylla pyri L. (Hemiptera: Psyllidae) in the context of an IPM program in European pear, Pyrus communis L.. Laboratory bioassays for the estimation of LC50 and LC90 of both insecticides were performed using four populations collected in Emilia-Romagna (Italy) orchards where different pest management strategies were used (organic, integrated, and conventional). The same populations were also analyzed for the main insecticide detoxifying activities in nymphs by spectrofluorimetric in vitro assays. The performance of the two insecticides was also tested on field on one population under integrated pest management conditions. The laboratory experiments showed that the LC90 of spirotetramat were lower than the highest field concentration allowed in Europe (172.80 mg AI liter(-1)) giving reassurance about the efficacy of the product. Concerning the abamectin, the laboratory bioassays did not show strong indications of resistance development of C. pyri populations of Emilia-Romagna. A similarity in enzyme detoxifying activity was observed in both insecticides indicating a general absence of a significant insecticide resistance. The field trial showed a high efficacy (90 %) of spirotetramat on C. pyri already after 15 d from application, and it was significantly higher from abamectin. Overall, spirotetramat is one more choice for C. pyri control, as well as abamectin in order to minimize the risks of occurrence of insecticide resistance.

Published

2015

4. A1-3 chromosomal translocations in Italian populations of the peach potato aphid Myzus persicae (Sulzer) not linked to esterase-based insecticide resistance

Author

Davide Bizzaro, Mauro Mandrioli, Valentina Monti, Marco Rivi, Gian Carlo Manicardi, Michela Panini, Emanuele Mazzoni, Matteo Anaclerio, Bruna Corradetti, Manuela Cigolini, and Stefano Cassanelli

Subjects

Crops, Agricultural, chromosomal rearrangement, esterase, chromosomal rearrangements, gene amplification, insecticide resistance, E4 and FE4, Myzus persicae, Molecular Sequence Data, Parthenogenesis, Chromosomal translocation, Chromosomal rearrangement, Real-Time Polymerase Chain Reaction, Esterase, Translocation, Genetic, Carboxylesterase, Insecticide Resistance, Aphididae, Animals, Gene, DNA Primers, Genetics, Aphid, Base Sequence, biology, General Medicine, biology.organism_classification, Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA, Italy, Aphids, Insect Science, Cytogenetic Analysis, Insect Proteins, Agronomy and Crop Science

Abstract

Esterase-based resistance in the peach-potato aphid, Myzus persicae (Sulzer), is generally due to one of two alternative amplified carboxylesterase genes, E4 or FE4 (fast E4). The E4 amplified form is distributed worldwide and it is correlated with a particular translocation between autosomes 1 and 3, whereas the FE4 form, which has hitherto not been found to be associated with chromosomal rearrangements, is typical of the Mediterranean regions. In this study, we present for the first time cytogenetic and molecular data on some M. persicae parthenogenetic lineages, which clearly show a chromosomal A1-3 translocation associated with esterase FE4 genes and unrelated to high levels of esterase-based resistance.

Published

2013

5. Resistance to acaricides in Italian strains of Tetranychus urticae: toxicological and enzymatic assays

Author

Thomas Van Leeuwen, Alberto Pozzebon, Stefano Cassanelli, Carlo Duso, Paola Tirello, and Evolutionary Biology (IBED, FNWI)

Subjects

Veterinary medicine, Acaricide resistance Tetranychidae Protected roses, Drug Resistance, Toxicology, chemistry.chemical_compound, Cytochrome P-450 Enzyme System, Animals, Bioassay, Protected roses, Tetranychus urticae, Acaricides, Acaricide resistance, Cross-resistance, Glutathione Transferase, Ovum, Tebufenpyrad, Ecology, Strain (chemistry), biology, Acaricide, Esterases, General Medicine, biology.organism_classification, Italy, chemistry, Animal ecology, Insect Science, Abamectin, Tetranychidae, Female

Abstract

Problems with Tetranychus urticae are frequently reported in protected crops in Italy, particularly in roses where many introduced acaricides show a progressive loss of effectiveness. We have conducted bioassays to assess the response of some Italian strains of T. urticae to a number of acaricides. These include compounds that were widespread and frequently used in the past, but also some recently registered compounds. We investigated two T. urticae strains collected from rose growers where control failures were reported (SAN and PSE), together with a strain collected from unsprayed vegetables (BOSA). Adult females of the rose strains (SAN and PSE) were resistant to tebufenpyrad (Resistant Ratio-RR, RR(50) = 48.4 and 163.6) and fenpyroximate (RR(50) = 74.1 and 25.9) when compared to the susceptible BOSA strain. Lethal concentrations for these products were higher than the registered field rate. The PSE strain proved to be highly resistant to abamectin (RR(50) = 1,294.1). Variation in bifenazate susceptibility was detected amongst strains, but LC(90) values of SAN and PSE were still in the range of the registered field rate. In egg bioassays, the SAN and PSE strains exhibited high resistance levels to clofentezine (RR(50) = 66,473 and 170,714), hexythiazox (RR(50) = 70,244 and 159,493) and flufenoxuron (RR(50) = 61.9 and 117.9). But the recently introduced ovi/larvicides etoxazole and spirodiclofen exhibited high activity on all strains. The activity of detoxifying enzymes such as esterases, glutathione-S-transferases (GSTs) and cytochrome P450 monooxygenases (MFOs) was determined in these strains as a preliminary attempt to identify potential resistance mechanisms. Enzymatic assays showed that the rose strains exhibited 2.66 and 1.95-fold increased MFOs activity compared to the susceptible strain. Assays for GSTs revealed that only the SAN strain exhibited a significantly higher activity. In contrast, only the PSE strain showed a significant higher hydrolysis of 1-naphthyl acetate.

Published

2012

6. Autosomal-dominant hemochrom-atosis is associated with a mutation in the ferroportin (SLC11A3) gene

Author

Giuliana Montosi, Adriana Donovan, Angela Totaro, Cinzia Garuti, Elisa Pignatti, Stefano Cassanelli, Cameron C. Trenor, Paolo Gasparini, Nancy C. Andrews, Antonello Pietrangelo, Montosi, G, Donovan, A, Totaro, A, Garuti, C, Pignatti, E, Cassanelli, S, Trenor, Cc, Gasparini, Paolo, Andrews, Nc, and Pietrangelo, A.

Subjects

Iron Overload, Iron, Mutation, Missense, Hemochromatosis, ferroportin gene, missense mutation, Article, Genetic Heterogeneity, Mice, HLA Antigens, Animals, Homeostasis, Humans, Hemochromatosis Protein, Cation Transport Proteins, Mononuclear Phagocyte System, Zebrafish, Genes, Dominant, Mice, Knockout, Histocompatibility Antigens Class I, Ceruloplasmin, Membrane Proteins, General Medicine, Amino Acid Substitution, Carrier Proteins

Abstract

Hemochromatosis is a progressive iron overload disorder that is prevalent among individuals of European descent. It is usually inherited in an autosomal-recessive pattern and associated with missense mutations in HFE, an atypical major histocompatibility class I gene. Recently, we described a large family with autosomal-dominant hemochromatosis not linked to HFE and distinguished by early iron accumulation in reticuloendothelial cells. Through analysis of a large pedigree, we have determined that this disease maps to 2q32. The gene encoding ferroportin (SLC11A3), a transmembrane iron export protein, lies within a candidate interval defined by highly significant lod scores. We show that the iron-loading phenotype in autosomal-dominant hemochromatosis is associated with a nonconservative missense mutation in the ferroportin gene. This missense mutation, converting alanine to aspartic acid at residue 77 (A77D), was not seen in samples from 100 unaffected control individuals. We propose that partial loss of ferroportin function leads to an imbalance in iron distribution and a consequent increase in tissue iron accumulation.

Published

2001

7. Karyotype variations in Italian populations of the peach-potato aphid Myzus persicae (Hemiptera: Aphididae)

Author

Mauro Mandrioli, Davide Bizzaro, Valentina Monti, Michela Panini, Emanuele Mazzoni, Marco Rivi, Gian Carlo Manicardi, and Stefano Cassanelli

Subjects

Integrated pest management, Crops, Agricultural, Male, Piperonyl butoxide, Karyotype, Myzus persicae, Translocation, Genetic, chemistry.chemical_compound, Aphididae, Animals, karyotype variations, chromosomal rearrangements, holocentric chromosomes, Aphid, biology, Resistance (ecology), business.industry, Neonicotinoid, General Medicine, biology.organism_classification, clastogenic effect, Hemiptera, Biotechnology, Chromosomes, Insect, Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA, chemistry, Italy, Insect Science, Aphids, nicotine, Female, business, Agronomy and Crop Science

Abstract

The green peach aphid Myzus persicae is a globally significant crop pest, controlled mainly by chemical treatments. In recent years neonicotinoids and pyrethroids have been the main components of pest management strategies used by growers. However, recent monitoring programmes in Southern Europe have shown the widespread presence of resistant populations, posing a serious threat to the long-term efficacy of these insecticide classes. The present work aims to characterise the main biochemical and molecular mechanisms responsible for insecticide resistance in Italian populations of M. Persicae. The first part is focused on target-site resistance and consider the frequency and distribution of the main target-site mutations associated with neonicotinoid and pyrethroid resistance. The second part is related to metabolic resistance and analyses the involvement of detoxifying enzymes able to sequester or metabolise the insecticide molecules. Furthermore, the project aims to characterise possible interactions between those enzymes and synergistic compounds like the well-known piperonyl butoxide (PBO). Results obtained by this investigation will help to improve insecticide resistance management strategies, in order to avoid ineffective applications and maintain the long-term sustainability of chemical control against M. persicae.

Published

2012

8. Acetylcholinesterase mutation in an insecticide-resistant population of the codling moth Cydia pomonella (L.)

Author

Stefano Cassanelli, Maritza Reyes, Benoît Sauphanor, Gian Carlo Manicardi, Magali Rault, Università degli Studi di Modena e Reggio Emilia (UNIMORE), Unité mixte de recherche Ecologie des invertébrés (UAPV), and Institut National de la Recherche Agronomique (INRA)-Avignon Université (AU)

Subjects

Tortricidae, Male, Insecticides, CYDIA POMONELLA, Genotype, Codling moth, Population, Molecular Sequence Data, Moths, Biochemistry, ACETYLCHOLINESTERASE, chemistry.chemical_compound, Carbaryl, RESISTANCE AUX TRAITEMENTS, Animals, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, Cydia pomonella, insecticide resistance, Amino Acid Sequence, education, Molecular Biology, INSENSITIVE ACETYLCHOLINESTERASE, education.field_of_study, Oxon, biology, Strain (chemistry), Base Sequence, Gene Amplification, Sequence Analysis, DNA, biology.organism_classification, Acetylcholinesterase, Molecular biology, Introns, LEPIDOPTERA, Diflubenzuron, chemistry, INSECTICIDE, Insect Science, Mutation, INSECTICIDE RESISTANCE, Female, TORTRICIDAE

Abstract

Two strains of Cydia pomonella (L.) (Lepidoptera: Tortricidae) were selected in the lab by exposure to increasing concentrations of diflubenzuron (Rdfb strain) or azinphos-methyl (Raz strain). Insecticide bioassays showed that the adults of the Rdfb strain exhibited a 2.6-fold and a 7.7-fold resistance ratio to azinphos-methyl and carbaryl, respectively compared to a susceptible strain (S) whereas the adults of the Raz strain exhibited a 6.7-fold resistance ratio to azinphos-methyl and a 130-fold resistance ratio to carbaryl. In the Raz strain, a target site resistance mechanism was suggested by the inhibition of acetylcholinesterase (AChE) activity. In fact the ki values did not discriminate the S and Rdfb strains, while the Raz strain exhibited a 1.7-fold and a 14-fold increase in ki value compared to the S strain for azinphos-methyl oxon and carbaryl, respectively. To verify this hypothesis, two cloned AChE cDNAs sequences (named cydpom-ace2 e cydpom-ace1) were compared between the susceptible and the resistant strains. No difference in the deduced amino acid sequence was found in cydpom-ace2 (orthologous to the Drosophila melanogaster AChE). In the putative cydpom-ace1 (paralogous to the Drosophila AChE), a single amino acid substitution F399V was exclusively present in the Raz strain. The F399 lined the active site of the enzyme and the F399V substitution likely could influence the accessibility of different types of inhibitors to the catalytic site of the insensitive cydpom-ace1.

Published

2006

9. X-linked heterochromatin distribution in the holocentric chromosomes of the green apple aphid Aphis pomi

Author

Angela Criniti, Stefano Cassanelli, Davide Bizzaro, G. Simonazzi, M. Ferrari, and Gian Carlo Manicardi

Subjects

Genetics, medicine.medical_specialty, X Chromosome, Heterochromatin, Cytogenetics, Plant Science, General Medicine, Biology, DNA, Ribosomal, Molecular biology, Aphis pomi, Giemsa stain, Staining, Silver stain, Aphids, Insect Science, Holocentric, medicine, Animals, Female, Animal Science and Zoology, In Situ Hybridization, Fluorescence, X chromosome

Abstract

Chromatin organization in the holocentric chromosomes of the green apple aphid Aphis pomi has been investigated at a cytological level after C-banding, NOR, Giemsa, fluorochrome staining and fluorescent in situ hybridization (FISH). C-banding technique showed that heterochromatic bands are exclusively located on X chromosomes. This data represents a peculiar feature that clearly contradicts the equilocal distribution of heterochromatin typical of monocentric chromosomes. Moreover, silver staining and FISH carried out with a 28S rDNA probe localized rDNA genes on one telomere of each X chromosome; CMA3 staining reveals that these silver positive telomeres are the only GC-rich regions among A. pomi heterochromatin, whereas all other C-positive bands are DAPI positive thus containing AT-rich DNA.

Published

2005

10. Use of the RFLP-PCR diagnostic test for characterizing MACE and kdr insecticide resistance in the peach potato aphid Myzus persicae

Author

Emanuele Mazzoni, Sara Giannini, Barbara Cerchiari, Stefano Cassanelli, Davide Bizzaro, and Gian Carlo Manicardi

Subjects

Pesticide resistance, Genotype, Homoptera, Myzus persicae, insecticide resistance, MACE, KdR, Biology, Polymerase Chain Reaction, Sodium Channels, Insecticide Resistance, Animals, Amino Acid Sequence, Genetics, Aphid, Base Sequence, business.industry, food and beverages, Knockdown resistance, Aphididae, General Medicine, biology.organism_classification, Biotechnology, Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA, kdr, Insect Science, Aphids, Mutation, Acetylcholinesterase, Restriction fragment length polymorphism, business, Agronomy and Crop Science, Polymorphism, Restriction Fragment Length

Abstract

The peach-potato aphid Myzus persicae (Sulzer) has developed a number of insecticide resistance mechanisms owing to the high selective pressure produced by world-wide insecticide treatments. Knowledge of the geographical distribution and the temporal evolution of these resistant phenotypes helps to develop suitable pest-management programs. Current understanding of the major mechanisms of resistance at the molecular level makes it possible to diagnose the presence of modified acetylcholinesterase (MACE) or knockdown resistance (kdr). This paper describes a rapid method for the identification of both resistance mechanisms in a single molecular assay by using restriction fragment length polymorphism of PCR products (RFLP-PCR) in individual as well as pooled aphids.

Published

2004

11. Cytokines and invertebrate immune responses

Author

Susanna Genedani, Antonella Franchini, Enzo Ottaviani, and Stefano Cassanelli

Subjects

Hemocyte, Immunity, Motility, Cell Biology, General Medicine, Biology, Cell biology, Nitric oxide synthase, Immune system, Cytokines, invertebrate, immune responses, Mollusca, Immunology, biology.protein, Animals, Receptor

Abstract

A profound interrelationship between cytokines and invertebrate (molluses) immune responses has been reported. Different cytokines (IL-1α, IL-2 and TNF-α) significantly stimulate molluscan hemocyte motility, increasing phagocytic activity and provoking the induction of nitric oxide synthase. As far as cell motility is concerned, the response to different cytokines varied between species. These and other recently reported findings (Ottaviani et al (1994) FEBS Lett 351, 19–21; Ottaviani et al (1995) Biochem Biophys Res Commun 207, 288–292) suggest that cytokines are important, ancestral, and functionally conserved molecules, which have also maintained their pleiotropicity, redundancy in the mode of action, and high promiscuity of their receptors during evolution.

Published

1995

12. Insights on life cycle and cell identity regulatory circuits for unlocking genetic improvement in Zygosaccharomyces and Kluyveromyces yeasts

Author

John P. Morrissey, Liliane Barroso, Lisa Solieri, Edward J. Louis, Paola Branduardi, Franziska Huff, Stefano Cassanelli, Solieri, L, Cassanelli, S, Huff, F, Barroso, L, Branduardi, P, Louis, E, and Morrissey, J

Subjects

Thematic Issue: Non-conventional yeast Cost Action Yeast4Bio, Zygosaccharomyces, Applied Microbiology and Biotechnology, Microbiology, Saccharomyces, 03 medical and health sciences, Kluyveromyces, 0302 clinical medicine, mating-type switching, Animals, Mating, mating type, 030304 developmental biology, Hybrid, Whole genome sequencing, hybrids, 0303 health sciences, AcademicSubjects/SCI01150, Life Cycle Stages, biology, hybrid, sterility, General Medicine, biology.organism_classification, Mating of yeast, Evolutionary biology, Hybridization, Genetic, Minireview, Ploidy, 030217 neurology & neurosurgery

Abstract

Evolution has provided a vast diversity of yeasts that play fundamental roles in nature and society. This diversity is not limited to genotypically homogeneous species with natural interspecies hybrids and allodiploids that blur species boundaries frequently isolated. Thus, life cycle and the nature of breeding systems have profound effects on genome variation, shaping heterozygosity, genotype diversity and ploidy level. The apparent enrichment of hybrids in industry-related environments suggests that hybridization provides an adaptive route against stressors and creates interest in developing new hybrids for biotechnological uses. For example, in the Saccharomyces genus where regulatory circuits controlling cell identity, mating competence and meiosis commitment have been extensively studied, this body of knowledge is being used to combine interesting traits into synthetic F1 hybrids, to bypass F1 hybrid sterility and to dissect complex phenotypes by bulk segregant analysis. Although these aspects are less known in other industrially promising yeasts, advances in whole-genome sequencing and analysis are changing this and new insights are being gained, especially in the food-associated genera Zygosaccharomyces and Kluyveromyces. We discuss this new knowledge and highlight how deciphering cell identity circuits in these lineages will contribute significantly to identify the genetic determinants underpinning complex phenotypes and open new avenues for breeding programmes., Understanding mating-type regulatory circuits in nontraditional yeasts will accelerate the development of new hybrid strains for biotechnology.