Investigation of sex-based differences in responses to artificial light of the greater waxmoth (Galleria mellonella) / Investigation of sex-based differences in responses to artificial light of the greater waxmoth (Galleria mellonella)

Singh, Prasoon

January 2021

Artificial light at night (ALAN) is becoming a greater threat to nocturnal species. Aside from the overall increase in light output, replacing outdated monochromatic street lighting with light-emitting diode (LED) lights with a broad emission spectrum could raise this issue more. However, studies evaluating the effect of artificial lights on nocturnal species, such as moths, are scarce. This study examines any variations in moth attraction as well as any other sex-based behavioural differences (mating behaviour – wing fanning, trajectory-circular movement, overall movement time) between male and female moths in the presence of warm-white light. This study used warm-white light LED (2718 K) and Galleria mellonella moth, reared in the lab and completed the experiment under standardised conditions in an enclosed setting. I found the male moths (100%)  were significantly (p = 0.024) attracted to warm-white light LED compare to female moths (37%). While other behaviours such as wing fanning, circular movement, overall moving time, and favoured light illuminance for rest weren't significantly different (p > 0.05). In the future, it will be important to investigate the effects of warm-white light LED with different lower CCT (< 2718K) on moths, as well as the sex differences in their behaviour both in a controlled and an open environment. This will help authorities to decide on outdoor lighting systems in different countries and continents.

Light pollution

Galleria mellonella

warm-white light

moths behaviour

attraction

Environmental Sciences

Miljövetenskap

Caracterização, detecção  e quantificação de Vibrio cholerae em amostras de água. / Characterization, detection and quantification of Vibrio cholerae in water samples.

Vargas, Nadia Catalina Alfonso

18 August 2017

Vibrio cholerae é uma bactéria autóctone em ecossistemas aquáticos, os fatores responsáveis pela virulência podem contribuir com a patogenicidade, influenciados por fatores genéticos e ambientais. Considerando a importância de conhecer e monitorar o V. cholerae, o estudo pretende caracterizar isolados da especie e padronizar uma metodologia para detecção em amostras de água. Os isolados foram avaliados por metodologias clássicas e moleculares, para confirmar espécie. Também, foi avaliada a presença de genes de virulência, susceptibilidade aos antibióticos e resposta em modelo invertebrado. Tres marcadores moleculares foram avaliados por PCR quantitativa. Observou-se que setenta dos isolados pertenciam a espécie V. cholerae e mostraram variação na prevalência dos genes de virulência e ao perfil de suscetibilidade ao antibióticos. Mostrou uma influencia da temperatura e concentração do inoculo no modelo invertebrado. Os marcadores moleculares selecionados mostraram a viabilidade da metodologia proposta neste estudo pela alta especificidade e sensibilidade. / Vibrio cholerae is an autochthonous bacterium in aquatic ecosystems, factors responsible for virulence may contribute to pathogenicity, influenced by genetic and environmental factors. Considering the importance of knowing and monitoring V. cholerae, the study pretend to characterize selected isolates and to standardize a methodology for detection in water samples. The isolates were evaluated by classical and molecular methodologies to confirm species. Also, the presence of factors associated with virulence, antibiotics susceptibility and response in invertebrate model were evaluated. Three molecular markers were evaluated by quantitative PCR. It was observed that seventy of the isolates belonged to the V. cholerae species and showed a variation in the prevalence of the virulence genes and the antibiotic susceptibility profile. Also, showed an influence of the inoculum temperature and concentration on the invertebrate model. The selected molecular markers showed the viability of the methodology proposed in this study for the high specificity and sensitivity.

Galleria mellonella

Galleria mellonella

Vibrio cholerae

Vibrio cholerae

Análise de sequências multilocus

Antibiogram

Antibiograma

Factors associated with virulence

Genes associados à virulência

Multilocus sequence analysis

PCR em tempo real

Real time PCR

Caracterização, detecção  e quantificação de Vibrio cholerae em amostras de água. / Characterization, detection and quantification of Vibrio cholerae in water samples.

Nadia Catalina Alfonso Vargas

18 August 2017

Vibrio cholerae é uma bactéria autóctone em ecossistemas aquáticos, os fatores responsáveis pela virulência podem contribuir com a patogenicidade, influenciados por fatores genéticos e ambientais. Considerando a importância de conhecer e monitorar o V. cholerae, o estudo pretende caracterizar isolados da especie e padronizar uma metodologia para detecção em amostras de água. Os isolados foram avaliados por metodologias clássicas e moleculares, para confirmar espécie. Também, foi avaliada a presença de genes de virulência, susceptibilidade aos antibióticos e resposta em modelo invertebrado. Tres marcadores moleculares foram avaliados por PCR quantitativa. Observou-se que setenta dos isolados pertenciam a espécie V. cholerae e mostraram variação na prevalência dos genes de virulência e ao perfil de suscetibilidade ao antibióticos. Mostrou uma influencia da temperatura e concentração do inoculo no modelo invertebrado. Os marcadores moleculares selecionados mostraram a viabilidade da metodologia proposta neste estudo pela alta especificidade e sensibilidade. / Vibrio cholerae is an autochthonous bacterium in aquatic ecosystems, factors responsible for virulence may contribute to pathogenicity, influenced by genetic and environmental factors. Considering the importance of knowing and monitoring V. cholerae, the study pretend to characterize selected isolates and to standardize a methodology for detection in water samples. The isolates were evaluated by classical and molecular methodologies to confirm species. Also, the presence of factors associated with virulence, antibiotics susceptibility and response in invertebrate model were evaluated. Three molecular markers were evaluated by quantitative PCR. It was observed that seventy of the isolates belonged to the V. cholerae species and showed a variation in the prevalence of the virulence genes and the antibiotic susceptibility profile. Also, showed an influence of the inoculum temperature and concentration on the invertebrate model. The selected molecular markers showed the viability of the methodology proposed in this study for the high specificity and sensitivity.

Galleria mellonella

Vibrio cholerae

Análise de sequências multilocus

Antibiograma

Genes associados à virulência

PCR em tempo real

Galleria mellonella

Vibrio cholerae

Antibiogram

Factors associated with virulence

Multilocus sequence analysis

Real time PCR

Identification de nouveaux facteurs hôtes-dépendants chez Bacillus cereus Caractérisation moléculaire et fonctionnelle d'IlsA, une protéine de surface essentielle pour l'acquisition du fer au cours de l'infection

Daou, Nadine

07 November 2008

Bacillus cereus est fréquemment associé à des toxi-infections alimentaires et peut être responsable de pathologies opportunistes sévères. Les facteurs d'adaptations de B. cereus chez l'hôte, liés à son pouvoir pathogène, sont encore inconnus. La capacité d'acquérir le fer lors d'une infection, est une importante réponse adaptative des bactéries, leur permettant de surmonter le manque de fer imposé par l'hôte. Nos travaux ont permis l'identification de nouveaux facteurs impliqués dans l'adaptation de B. cereus chez l'hôte, ainsi que la caractérisation d'une nouvelle protéine IlsA (Iron regulated leucine-rich surface protein) fortement exprimée in vivo. L'identification de ces facteurs a été réalisée à l'aide du système IVET (In Vivo Expression Technology), adapté à la souche B. cereus ATCC 14579 et analysé après infection chez la larve du lépidoptère Galleria mellonella. Ce système permet la détection des promoteurs activés de façon transitoire. L'analyse de la structure protéique d'IlsA, montre quatre domaines conservés: un peptide signal d'export N-terminal, un domaine NEAT potentiellement impliqué dans le transport du fer, suivi d'une région riche en leucine (LRR) susceptible d'interagir avec les protéines de l'hôte, et un domaine SLH de liaison à la surface bactérienne. La présence d'une boîte fur dans la région promotrice d'ilsA suggère une régulation dépendante du fer. Les analyses transcriptionnelles ont montré qu'ilsA est en effet, exprimé dans les conditions de carence en fer in vitro et in vivo. De plus, nous avons démontré qu'IlsA est localisée à la surface et qu'elle est nécessaire pour l'acquisition de fer à partir des protéines présentes chez l'hôte : l'hémoglobine, l'hème et la ferritine, et ceci en se liant directement avec elles. En outre, l'étude de la séquence protéique du domaine NEAT d'IlsA, suggère qu'il serait responsable de l'interaction avec l'hème. Par ailleurs, nous avons montré que l'inactivation d'ilsA affecte la survie et la virulence de B. cereus chez l'insecte, et chez les macrophages murins. Nos résultats indiquent qu'IlsA est un facteur d'adaptation essentiel pour l'acquisition de fer au cours de l'infection, contribuant à la pathogénie de B. cereus chez les invertébrés et vertébrés.

[SDV] Life Sciences

Bacillus cereus

système IVET

Facteurs d'adaptations

Infection

Protéine de surface

Acquisition du fer

Sources de fer

Galleria mellonella

Virulence and required genes in the fish pathogen Vibrio anguillarum

McMillan, Stuart

January 2016

Vibrio anguillarum infects many fish species in aquaculture, reducing farm productivity and negatively impacting fish welfare. Deeper understanding of the biology of V. anguillarum, particularly during infections in vivo, will help to improve disease prevention and control. Thus, the aim of this thesis was to provide further insight into the infection biology of V. anguillarum with a view to identifying better ways to reduce the impact of this pathogen in aquaculture. Conventional studies on virulence, particularly those aiming to identify novel virulence factors, often employ transposon mutagenesis where the functions of individual genes in the bacterium are disrupted. These mutant libraries are screened to identify those with attenuated virulence, allowing subsequent identification of the gene responsible. Usually the native fish host would be used but such studies are increasingly difficult to perform due to regulations on vertebrate experiments and ethical concerns. As a result, alternative invertebrate hosts are now an important means to studying microbial infections, but few models have been assessed for bacterial pathogens of fish. In this thesis, larvae of the greater wax moth Galleria mellonella were evaluated as an alternative host to investigate V. anguillarum virulence. Wild-type V. anguillarum isolates killed larvae in a dose-dependent manner, replicated in the haemolymph, and larvae infected with a lethal dose of bacteria could be rescued by antibiotic therapy, thus indicating that V. anguillarum established an infection in G. mellonella. Crucially, virulence of 11 wild-type V. anguillarum isolates correlated significantly between larva and Atlantic salmon infection models, and studies with isogenic mutants knocked out for various virulence determinants revealed conserved roles for some in larva and fish infections, including the pJM1 virulence plasmid and rtxA toxin. Thereafter, 350 strains from a V. anguillarum random transposon insertion library were screened for attenuated virulence in G. mellonella. In total, 12 strains had reduced virulence and in these mutants the transposon had inserted into genes encoding several recognised and putative virulence factors, including a haemolytic toxin (vah1) and proteins involved in iron sequestration (angB/G and angN). Importantly, the transposon in one strain had inserted into an uncharacterised hypothetical protein. Preliminary investigations found this putative novel virulence factor to contain a GlyGly-CTERM sorting domain motif, with sequence similarity to VesB of Vibrio cholerae which is involved in post-translational processing of cholera toxin. Finally, three transposon insertion libraries were mass sequenced on a MiSeq platform to identify V. anguillarum genes lacking transposon insertions. These genes were assumed to be ‘required’ for viability in the conditions under which the mutants were selected, in this case tryptone soya agar. In total, 248 genes lacked a transposon insertion and were the putative ‘required’ genes, and these may be important chemotherapeutic targets for new approaches to combat V. anguillarum infections. This thesis has furthered our understanding of the biology of the important fish pathogen V. anguillarum using an ethically acceptable approach, and the findings may assist with new ways to reduce the burden of this bacterium in aquaculture.

639.3

Associação de antibióticos e terapia fotodinâmica antimicrobiana para o controle de Acinetobacter baumannii / Association of antibiotics and antimicrobial photodynamic therapy for the control of Acinetobacter baumannii

Mello, Mirian Marcolan de [UNESP]

14 December 2015

Submitted by MIRIAN MARCOLAN DE MELLO null (marcolanmirian@yahoo.com.br) on 2016-02-16T08:13:42Z No. of bitstreams: 1 TESE Doutorado Mirian14_02_2016REPOSITÓRIO.pdf: 1649527 bytes, checksum: c26e5ed45e88f8a3889873caa917015a (MD5) / Approved for entry into archive by Ana Paula Grisoto (grisotoana@reitoria.unesp.br) on 2016-02-17T13:45:10Z (GMT) No. of bitstreams: 1 mello_mm_dr_sjc.pdf: 1649527 bytes, checksum: c26e5ed45e88f8a3889873caa917015a (MD5) / Made available in DSpace on 2016-02-17T13:45:10Z (GMT). No. of bitstreams: 1 mello_mm_dr_sjc.pdf: 1649527 bytes, checksum: c26e5ed45e88f8a3889873caa917015a (MD5) Previous issue date: 2015-12-14 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Devido ao rápido aumento dos micro-organismos resistentes aos antibióticos e ao desenvolvimento limitado de novos agentes antimicrobianos, as infecções por bactérias Gram-negativas estão se tornando um desafio para os profissionais da saúde e uma ameaça para a saúde pública internacional. O objetivo desse estudo foi avaliar o efeito sinérgico dos antibióticos convencionais associados a terapia fotodinâmica antimicrobiana (PDT) no controle de Acinetobacter baumannii. Para realização desse trabalho, foram obtidos isolados clínicos de A. baumannii do Laboratório de Análises Clínicas Valeclin da cidade de São José dos Campos/SP, identificados pelo método de bioquimismo e submetidos ao teste de difusão em disco para verificar a sensibilidade antimicrobiana. Os isolados selecionados foram transferidos para o ICT/UNESP, onde foi realizado testes para determinação da Concentração Inibitória Mínima aos antibióticos Imipenem e Meropenem seguindo as normas da CLSI. Cepas sensíveis e resistentes aos antibióticos foram avaliadas quanto a sensibilidade in vitro à terapia fotodinâmica antimicrobiana. Além disso, foram testados os efeitos dos antibióticos convencionais, da PDT e da terapia combinada de antibióticos e PDT nas infecções experimentais induzidas em G. mellonella por isolados clínicos de A. baumannii resistentes aos antibióticos. Os resultados das terapias na infecção experimental foram avaliados por meio da curva de sobrevivência das lagartas de G. mellonella. Os dados dos testes in vitro foram submetidos à Análise de Variância e teste de Tukey. Os dados obtidos na curva de sobrevivência de G. mellonella foram analisados pelo método de Log-rank. Em todos os testes, foi considerado nível de significância de 5%. Nos resultados desse estudo, observou-se que o Laboratório Valeclin identificou 1,54% de amostras positivas para A. baumannii entre as 13.715 amostras clínicas analisadas em um período de 8 meses. Entre os isolados de A. baumannii, 58% demonstraram resistência aos antibióticos imipenem e meropenem por meio de teste de difusão em disco. A seguir 3 isolados clínicos sensíveis e 18 isolados resistentes a esses antibióticos foram selecionados para o presente estudo. O valor de CIM para os isolados sensíveis variou de ˂ 0,5 a 1µg/mL e para os isolados resistentes de 64 a >128µg/mL. A PDT in vitro reduziu o número de células de A. baumannii em todos os isolados testados, mas o percentual de redução foi dependente dos isolados analisados. Além disso, verificou-se nos testes in vivo, que o tratamento com PDT, antibióticos (Imipenem e Meropenem) e associação de PDT+Antibióticos resultaram na sobrevivência das lagartas de G. mellonella, porém sem efeito sinérgico. Conclui-se que a PDT teve ação antimicrobiana contra isolados clínicos de A. baumannii sensíveis e resistentes aos carbapenêmicos, mas não apresentou efeito sinérgico quando associada com antibióticos. / Due to the rapid growth of microorganisms resistant to antibiotics and the limited development of new antimicrobial agents, infections by Gram-negative bacteria are becoming a challenge for health professionals and a threat to international public health. The aim of this study was to evaluate the synergistic effect of conventional antibiotics associated with antimicrobial photodynamic therapy (PDT) in control of Acinetobacter baumannii. In order to conduct this project were obtained clinical isolates of A. baumannii at the Clinical Laboratory Valeclin situated in the city of São José dos Campos / SP, identified by bioquimismo method and submitted to disk diffusion test to verify the antimicrobial sensitivity. The selected isolates were transferred to the ICT / UNESP, which were conducted tests to determine the Minimum Inhibitory Concentration to Imipenem and Meropenem antibiotics following the rules of the CLSI. Sensitive and resistant strains to antibiotics were evaluated in vitro sensitivity to antimicrobial photodynamic therapy. Besides, the effects of conventional antibiotics, and combined PDT, and PDT of antibiotics in experimental infections induced in G. mellonella by clinical isolates of A. baumannii resistant to antibiotic therapy were tested. The results of therapies in experimental infection were evaluated by survival curve of worms G. mellonella. Data from in vitro tests were submitted to ANOVA and Tukey test. The data obtained in G. mellonella survival curve were analyzed by log-rank method. In all tests it was considered 5% significance level. The results of this study, it was observed that the Valeclin Laboratory identified 1.54% of positive samples for A. baumannii between the 13,715 clinical specimens analyzed in a period of 8 months. Among the isolates of A. baumannii, 58% were resistant to antibiotic imipenem and meropenem by disk diffusion test. Next, 3 isolates clinical sensitive and 18 isolates resistant to those antibiotics were selected for this study. The MIC value for sensitive isolates ranged from 0.5 to ˂ 1μg / mL and resistant isolates from 64 to> 128μg / mL. The PDT in vitro reduced the number of A. baumannii cells in all isolates tested, but the percentage of reduction was dependent on the analyzed isolates. Furthermore, it was found in in vivo tests, treatment with PDT, antibiotic (Imipenem and Meropenem) and PDT + Antibiotics association resulted in the survival of G. mellonella caterpillars, but no synergistic effect. It was concluded that PDT has antimicrobial activity against clinical isolates of A. baumannii sensitive and resistant to carbapenems, but it had no synergistic effect when combined with antibiotics.

Acinetobacter baumannii

Galleria mellonella

Antimicrobianos

Terapia fotodinâmica antimicrobiana

Resistência Microbiana a medicamentos

Antimicrobials

Drug resistence microbial

Antimicrobial photodynamic therapy

Molecular epidemiology, virulence potential and antibiotic susceptibility of the major lineages of uropathogenic Escherichia coli

Alghoribi, Majed

January 2015

Uropathogenic E. coli (UPEC) is the most frequent cause of urinary tract infection (UTI), being responsible for up to 85% of community acquired and 40% of nosocomial cases. UPEC strains harbour various virulence factors that contribute to their ability to cause disease. The high prevalence across the globe of multidrug resistant UPEC is a significant threat to therapy. Virulent and resistant UPEC strains have been recognised as belonging to major lineages and we have only recently begun to understand the factors contributing to their successful global dissemination. Work in this thesis was carried out to identify the population structure of E. coli isolates recovered from urosepsis and biliary sepsis, to reveal any differences in genetic background. A total of 100 isolates from the blood and urine of 50 patients presenting with urosepsis and 27 isolates from cases of biliary sepsis were subjected to genotypic and phenotypic analysis, including MLST, virulence gene detection and antibiogram and metabolic profiling. Urosepsis paired isolates showed identical genotypes and antimicrobial resistance profiles. However, several pairs of isolates showed discrepant metabolic activity profiles suggesting niche specific regulation of metabolism. Members of the ST131 clone were significantly associated with antibiotic resistance and ST38 isolates were associated with the highest level of metabolic activity. An in vivo infection model was used to investigate the virulence potential of isolates from the major UPEC lineages. Galleria mellonella larvae inoculated with ST69 and ST127 isolates showed significantly higher mortality rates than those infected with other strains. However, one isolate of ST127 (strain EC18) was avirulent and comparative genomic analyses with a single virulent ST127 strain revealed an IS1 mediated deletion in the O-antigen cluster in strain EC18, which is likely to explain the lack of virulence in the larvae and demonstrates the importance of this cell surface molecule in the model system. Finally, a total of 202 UPEC isolates were recovered from community and hospital urine samples from a tertiary care hospital in Riyadh, Saudi Arabia. Molecular epidemiological investigation of the strains was carried out to examine the overall UPEC population structure, for the first time in any part of Saudi Arabia. The most common lineages were ST131 (17.3%), ST73 (11.4%), ST38 (7.4%), ST69 (7.4%) and ST10 (6.4%). The findings highlight the successful spread of multidrug resistant, CTX-M positive ST38, ST131 and ST405 UPEC in Saudi Arabia. The high proportion (35%) of ESBL producing E. coli isolates is a particular concern and is driving frequent prescription of carbapenem antibiotics. A total of four isolates of ST38 were positive for aggR, which is a virulence marker of enteroaggregative E. coli (EAEC); ST38 strains that cause UTI but have an EAEC genetic background are becoming recognised as novel UPEC and this clonal group warrants further study.

616

Impact of different light sources on the responses of moth

Zhou, Yanhe

January 2021

In recent decades, the negative effects of artificial light at night on natural ecosystems have attracted the attention of ecologists. Studies have shown that artificial light at night leads to a considerable reduction in insects and has a worrying impact on terrestrial ecosystems, including nocturnal insects (e.g. Lepidoptera) such as moths. Warm white light is generally expected to have a lower ecological impact compared with cold white light which has a higher proportion of blue light (< 500 nm). The aim of this study is to investigate the impact of three light emitting diode (LED) light sources with different spectral power distributions on the responses of the greater wax moth (Galleria mellonella) under controlled experimental settings. In this experiment, three light sources with different spectral power distribution and dark condition were used and the start response time, time active, time flap wings, time flap wings / time active, main activity area and stop area of the greater wax moth were investigated. The light treatment used were: (1) darkness (n = 13); (2) warm-white light (correlated color temperature of 2675 K, n = 12); (3) white light (4070 K, n = 4); (4) cold white light (6200 K, n = 8). The experiment was performed in a rectangular light-tight box under controlled conditions. Main activity area showed significant difference between warm-white light and cold white light. With cold white light, a larger proportion of the moths were active in the area with the highest light levels, while the main activity area in the warm white light was in the zone with the lowest light levels. Other variables, however, did not show significant differences. The conclusion is that warm white light had a lower ecological impact than cold white light due to a larger proportion of moth is attracted to areas with stronger light. The results support the notion that in outdoor environments, warm white LEDs (maximum 3000 K) should be preferred compared to cold white light LEDs (over 3000 K), to reduce the impact on insects such as moths. The low correlated color temperature light sources used outdoors deserves more in-depth development and research.

Artificial light at night (ALAN)

Greater wax moth

Light Attraction

light emitting diodes

LED

Galleria mellonella

Environmental Sciences

Miljövetenskap

Comparison of the Pathogenic Potential of Campylobacter jejuni, C. upsaliensis and C. helveticus and Limitations of Using Larvae of Galleria mellonella as an Infection Model

Bojani´c, Krunoslav, Acke, Els, Roe, Wendi D., Marshall, Jonathan C., Cornelius, Angela J., Biggs, Patrick J., Midwinter, Anne C.

21 April 2023

Campylobacter enteritis in humans is primarily associated with C. jejuni/coli infection. Other species cause campylobacteriosis relatively infrequently; while this could be attributed to bias in diagnostic methods, the pathogenicity of non-jejuni/coli Campylobacter spp. such as C. upsaliensis and C. helveticus (isolated from dogs and cats) is uncertain. Galleria mellonella larvae are suitable models of the mammalian innate immune system and have been applied to C. jejuni studies. This study compared the pathogenicity of C. jejuni, C. upsaliensis, and C. helveticus isolates. Larvae inoculated with either C. upsaliensis or C. helveticus showed significantly higher survival than those inoculated with C. jejuni. All three Campylobacter species induced indistinguishable histopathological changes in the larvae. C. jejuni could be isolated from inoculated larvae up to eight days post-inoculation whereas C. upsaliensis and C. helveticus could only be isolated in the first two days. There was a significant variation in the hazard rate between batches of larvae, in Campylobacter strains, and in biological replicates as random effects, and in species and bacterial dose as fixed effects. The Galleria model is applicable to other Campylobacter spp. as well as C. jejuni, but may be subject to significant variation with all Campylobacter species. While C. upsaliensis and C. helveticus cannot be considered non-pathogenic, they are significantly less pathogenic than C. jejuni.

info:eu-repo/classification/ddc/570

ddc:570

Transformace lilku bramboru genem kódujícím proteázový inhibitor SPI-2 / Transformation of potato with protease inhibitor gene SPI-2

Říhová, Barbora

January 2013

The subject of my thesis was to genetically modify a potato for increased resistance against its pathogens and pests. In developing a resistant plant, it is quite common to use the same type of molecules that plants use themselves in their defense reactions. In this work I used the gene SPI-2 originating from a honeycomb moth (Galleria mellonella). The protein SPI-2 is a member of serine protease inhibitors. Since the previous attempts of the team to detect the protein in transformed plants haven't been successful, the basic form of the gene was modified by adding a Kozak sequence near the start codon, which should have increased the translation initiation and hence increase the level of the protein. Two constructs were prepared for the transformation: SPI-2-T a SPI-2-Y. They differ by one amino acid, which slightly changes their inhibitory activity. First, the construct SPI-2-T was used for a transient transformation of tobacco Nicotiana benthamiana by agroinfiltration of its leaves. Then both constructs were used for a stable transformation of Solanum tuberosum cv. Desireé. The detection of the protein has not been successful, although the inserted gene was transcribed and his sequence was verified by sequencing. It is therefore most likely that the protein has a low stability in the cytoplasm....