Constructing a timetable of autumn senescence in aspen

Keskitalo, Johanna

January 2006

<p>During the development and lifecycle of multicellular organisms, cells have to die, and this occurs by a process called programmed cell death or PCD, which can be separated from necrosis or accidental cell death (Pennell and Lamb, 1997). Senescence is the terminal phase in the development of an organism, organ, tissue or cell, where nutrients are remobilized from the senescing parts of the plant into other parts, and the cells of the senescing organ or tissue undergo PCD if the process is not reversed in time. Leaf senescence involves cessation of photosynthesis, loss of pigments and proteins, nutrient remobilization, and degradation of the plant cells (Smart, 1994). Initiation of leaf senescence is triggered by a wide range of endogenous and environmental factors, that through unknown pathways controls the process, and regulates the expression of senescence-associated genes (SAGs) (Buchanan-Wollaston, 1997). Autumn leaf senescence in deciduous trees is regulated by photoperiod and temperature, and is an attractive experimental system for studies on senescence in perennial plants.</p><p>We have studied the process of autumn senescence in a free-growing aspen (Populus tremula) by following changes in pigment, metabolite and nutrient content, photosynthesis, and cell and organelle integrity. All data were combined in a cellular timetable of autumn senescence in aspen. The senescence process started on September 11 with degradation of pigments and other leaf constituents, and once initiated, progressed steadily without being affected by the environment. Chloroplasts were rapidly degraded, and mitochondria took over energy production after chlorophyll levels had dropped by 50%. At the end of remobilization, around 29th of September, some cells were still metabolically active and had chlorophyll-containing plastids. Over 80% of nitrogen and phosphorus was remobilized, and a sudden change in the 15N of the cellular content on September 29, indicated that volatile compounds may have been released.</p><p>We have also studied gene expression in autumn leaves by analysing EST sequences from two different cDNA libraries, one from autumn leaves of a field-grown aspen and the other from young, but fully expanded leaves of a green-house grown aspen. In the autumn leaf library, ESTs encoding metallothioneins, proteases, stress-related proteins and proteins involved in respiration and breakdown of macromolecules were abundant, while genes coding for photosynthetic proteins were massively downregulated. We have also identified homologues to many known senescence-associated genes in annual plants.</p><p>By using Populus cDNA microarrays, we could follow changes in gene expression during the autumn over four years in the same free-growing aspen tree. We also followed changes in chlorophyll content to monitor the progression of leaf senescence. We observed a major shift in gene expression, occuring at different times the four years, that reflected a metabolic shift from photosynthetic competence to energy generation by mitochondrial respiration. Even though autumn senescence was initiated almost at the same date each year, the transcriptional timetables were different from year to year, especially for 2004, which indicates that there is no strict correlation between the transcriptional and the cellular timetables of leaf senescence.</p>

Populus tremula

autumn senescence

senescence-associated genes

cellular timetable

transcriptional timetable

cDNA microarrays

EST sequencing

Plant physiology

Växtfysiologi

Radiosensitivity in lung cancer with focus on p53

Bergqvist, Michael

January 2002

<p>In Sweden approximately 2800 new lung cancer patients are diagnosed every year. Radiotherapy is used with curative intention in certain groups of patients. The aim of this thesis is to study the basis of differences in radioresistance and the possibility to predict response to radiotherapy.</p><p>In the first study we investigated, using the comet assay, four lung cancer cell lines with different sensitivity towards radiation. A clear dose-response relationship for radiation-induced DNA single strand and double strand breaks were found. All cell lines showed a remarkably efficient repair of both the DNA single strand and double strand breaks one hour after irradiation. However, further studies in one radioresistant and one radiosensitive cell line demonstrated that repair during the first 15 min had the best accordance with radiosensitivity measured as surviving fraction.</p><p>In the second and third study, sequencing studies of the p53 gene were performed on cell lines as well as on tumour material. Cell lines that were expressing a mutation in exon 7 were associated with increased radiosensitivity compared with tumor cell lines with mutations in other exons. In the clinical study, 10 patients were found to be mutated in the p53 gene whereas the other 10 patients were not. No correlation to clinical parameters could be drawn.</p><p>In the fourth study, serum from 67 patients with a confirmed diagnosis of non-small cell lung cancer was investigated for the presence of p53 antibodies. P53 antibodies in sera, taken prior to radiation treatment, were associated with increased survival.</p><p>The summary of this thesis indicates that the p53 gene has an impact on the effect of radiotherapy in lung cancer. The presence of p53 antibodies might be of clinical interest for predicting survival after radiotherapy. Further studies on the importance of the p53 gene on early repair are of interest. </p>

Oncology

Lung cancer

comet assay

p53

cDNA

p53 antibodies

Lungcancer

Komet metoden

p53 antikroppar

Onkologi

Oncology

Onkologi

Pteridine dependent hydroxylases as autoantigens in autoimmune polyendocrine syndrome type 1

Ekwall, Olov

January 2001

<p>Autoimmune polyendocrine syndrome type I (APS) is a monogenous, recessively inherited disease characterised by endocrine and non-endocrine autoimmune manifestations. One fifth of APS I patients suffer from periodic intestinal dysfunction with varying degrees of malabsorbtion, steatorrhea and constipation. Alopecia areata is found in one third of APS I patients. By immunoscreening human cDNA libraries derived from normal human duodenum and scalp with APS I sera, we identified tryptophan hydroxylase (TPH) as an intestinal autoantigen and tyrosine hydroxylase (TH) as a dermal autoantigen. Forty-eight percent (38/80) of the APS I patients had TPH antibodies (Ab) and 44% (41/94) showed TH immunoreactivity. No reactivity against TPH or TH was seen in healthy controls. TPH-Abs showed a statistically significant correlation with gastrointestinal dysfunction (p<0.0001) and TH-Abs were significantly correlated to alopecia (p=0.02). TPH-Ab positive APS I sera specifically immunostained TPH containing enterochromaffin cells in normal duodenal mucosa. In affected mucosa a depletion of the TPH containing EC cells was seen. In enzyme inhibition experiments TPH and TH activity <i>in vitro</i> was reduced by adding APS I sera. TPH and TH together with phenylalanine hydroxylase (PAH) constitute the group of pteridine dependent hydroxylases. These are highly homologous enzymes involved in the biosynthesis of neurotransmitters. Immunoprecipitation of PAH expressed <i>in vitro</i> showed that 27% (25/94) of APS I patients had antibodies reacting with PAH, but no associations with clinical manifestations was observed. An immunocompetition assay showed that the PAH reactivity reflects a cross-reactivity with TPH.</p><p>In conclusion, we have identified TPH and TH as intestinal and dermal autoantigens in APS I, coupled to gastrointestinal dysfunction and alopecia. We have also demonstrated immunoreactivity against PAH in APS I patient sera reflecting a cross-reactivity with TPH.</p>

Medical sciences

APS I

alopecia

autoantigen

cDNA

malabsorption

phenylalanine hydroxylase

pteridine

tryptophan hydroxylase

tyrosine hydroxylase

MEDICIN OCH VÅRD

MEDICINE

MEDICIN

Pteridine dependent hydroxylases as autoantigens in autoimmune polyendocrine syndrome type 1

Ekwall, Olov

January 2001

Autoimmune polyendocrine syndrome type I (APS) is a monogenous, recessively inherited disease characterised by endocrine and non-endocrine autoimmune manifestations. One fifth of APS I patients suffer from periodic intestinal dysfunction with varying degrees of malabsorbtion, steatorrhea and constipation. Alopecia areata is found in one third of APS I patients. By immunoscreening human cDNA libraries derived from normal human duodenum and scalp with APS I sera, we identified tryptophan hydroxylase (TPH) as an intestinal autoantigen and tyrosine hydroxylase (TH) as a dermal autoantigen. Forty-eight percent (38/80) of the APS I patients had TPH antibodies (Ab) and 44% (41/94) showed TH immunoreactivity. No reactivity against TPH or TH was seen in healthy controls. TPH-Abs showed a statistically significant correlation with gastrointestinal dysfunction (p&lt;0.0001) and TH-Abs were significantly correlated to alopecia (p=0.02). TPH-Ab positive APS I sera specifically immunostained TPH containing enterochromaffin cells in normal duodenal mucosa. In affected mucosa a depletion of the TPH containing EC cells was seen. In enzyme inhibition experiments TPH and TH activity in vitro was reduced by adding APS I sera. TPH and TH together with phenylalanine hydroxylase (PAH) constitute the group of pteridine dependent hydroxylases. These are highly homologous enzymes involved in the biosynthesis of neurotransmitters. Immunoprecipitation of PAH expressed in vitro showed that 27% (25/94) of APS I patients had antibodies reacting with PAH, but no associations with clinical manifestations was observed. An immunocompetition assay showed that the PAH reactivity reflects a cross-reactivity with TPH. In conclusion, we have identified TPH and TH as intestinal and dermal autoantigens in APS I, coupled to gastrointestinal dysfunction and alopecia. We have also demonstrated immunoreactivity against PAH in APS I patient sera reflecting a cross-reactivity with TPH.

Medical sciences

APS I

alopecia

autoantigen

cDNA

malabsorption

phenylalanine hydroxylase

pteridine

tryptophan hydroxylase

tyrosine hydroxylase

MEDICIN OCH VÅRD

MEDICINE

MEDICIN

Radiosensitivity in lung cancer with focus on p53

Bergqvist, Michael

January 2002

In Sweden approximately 2800 new lung cancer patients are diagnosed every year. Radiotherapy is used with curative intention in certain groups of patients. The aim of this thesis is to study the basis of differences in radioresistance and the possibility to predict response to radiotherapy. In the first study we investigated, using the comet assay, four lung cancer cell lines with different sensitivity towards radiation. A clear dose-response relationship for radiation-induced DNA single strand and double strand breaks were found. All cell lines showed a remarkably efficient repair of both the DNA single strand and double strand breaks one hour after irradiation. However, further studies in one radioresistant and one radiosensitive cell line demonstrated that repair during the first 15 min had the best accordance with radiosensitivity measured as surviving fraction. In the second and third study, sequencing studies of the p53 gene were performed on cell lines as well as on tumour material. Cell lines that were expressing a mutation in exon 7 were associated with increased radiosensitivity compared with tumor cell lines with mutations in other exons. In the clinical study, 10 patients were found to be mutated in the p53 gene whereas the other 10 patients were not. No correlation to clinical parameters could be drawn. In the fourth study, serum from 67 patients with a confirmed diagnosis of non-small cell lung cancer was investigated for the presence of p53 antibodies. P53 antibodies in sera, taken prior to radiation treatment, were associated with increased survival. The summary of this thesis indicates that the p53 gene has an impact on the effect of radiotherapy in lung cancer. The presence of p53 antibodies might be of clinical interest for predicting survival after radiotherapy. Further studies on the importance of the p53 gene on early repair are of interest.

Oncology

Lung cancer

comet assay

p53

cDNA

p53 antibodies

Lungcancer

Komet metoden

p53 antikroppar

Onkologi

Oncology

Onkologi

Constructing a timetable of autumn senescence in aspen

Keskitalo, Johanna

January 2006

During the development and lifecycle of multicellular organisms, cells have to die, and this occurs by a process called programmed cell death or PCD, which can be separated from necrosis or accidental cell death (Pennell and Lamb, 1997). Senescence is the terminal phase in the development of an organism, organ, tissue or cell, where nutrients are remobilized from the senescing parts of the plant into other parts, and the cells of the senescing organ or tissue undergo PCD if the process is not reversed in time. Leaf senescence involves cessation of photosynthesis, loss of pigments and proteins, nutrient remobilization, and degradation of the plant cells (Smart, 1994). Initiation of leaf senescence is triggered by a wide range of endogenous and environmental factors, that through unknown pathways controls the process, and regulates the expression of senescence-associated genes (SAGs) (Buchanan-Wollaston, 1997). Autumn leaf senescence in deciduous trees is regulated by photoperiod and temperature, and is an attractive experimental system for studies on senescence in perennial plants. We have studied the process of autumn senescence in a free-growing aspen (Populus tremula) by following changes in pigment, metabolite and nutrient content, photosynthesis, and cell and organelle integrity. All data were combined in a cellular timetable of autumn senescence in aspen. The senescence process started on September 11 with degradation of pigments and other leaf constituents, and once initiated, progressed steadily without being affected by the environment. Chloroplasts were rapidly degraded, and mitochondria took over energy production after chlorophyll levels had dropped by 50%. At the end of remobilization, around 29th of September, some cells were still metabolically active and had chlorophyll-containing plastids. Over 80% of nitrogen and phosphorus was remobilized, and a sudden change in the 15N of the cellular content on September 29, indicated that volatile compounds may have been released. We have also studied gene expression in autumn leaves by analysing EST sequences from two different cDNA libraries, one from autumn leaves of a field-grown aspen and the other from young, but fully expanded leaves of a green-house grown aspen. In the autumn leaf library, ESTs encoding metallothioneins, proteases, stress-related proteins and proteins involved in respiration and breakdown of macromolecules were abundant, while genes coding for photosynthetic proteins were massively downregulated. We have also identified homologues to many known senescence-associated genes in annual plants. By using Populus cDNA microarrays, we could follow changes in gene expression during the autumn over four years in the same free-growing aspen tree. We also followed changes in chlorophyll content to monitor the progression of leaf senescence. We observed a major shift in gene expression, occuring at different times the four years, that reflected a metabolic shift from photosynthetic competence to energy generation by mitochondrial respiration. Even though autumn senescence was initiated almost at the same date each year, the transcriptional timetables were different from year to year, especially for 2004, which indicates that there is no strict correlation between the transcriptional and the cellular timetables of leaf senescence.

Populus tremula

autumn senescence

senescence-associated genes

cellular timetable

transcriptional timetable

cDNA microarrays

EST sequencing

Plant physiology

Växtfysiologi

The neuroanatomical  expression profile of novel  membrane proteins. : The effect of macronutrients on gene expression.

Malmberg, Jennie

January 2008

Worldwide obesity is an increasing problem. Apart from the fact that obesity greatly  impairs the health, quality and length of life for the affected individuals, it is also has the  potential to become a major socioeconomic problem in a near future. However preventive  actions require an understanding of the cause. Before the psychological influence on  eating can be evaluated a profound understanding of the biological regulatory system and  how this interacts with the food consumed is required. On the assumption that food  consumption is regulated by interplay between food and genes, the food itself may  influence the genes that regulate consumption, hence change the expression levels of the  genes regulating food intake.     To evaluate the interplay between food and gene expression, the project contained several  parts, reflecting different aspects of the area of research. The feeding studies had in  common that they were initial trials in a larger project. The results of these will be  evaluated and used in combination with further studies.     The mice typed for food preference illustrate the complexity of the feeding regulatory  system by pointing out the differences between individuals even in a relatively small  group of animals. Mice in general like food high in fat and here the animals that showed a  preference for sugar also showed a significant increase in their intake of chow. Since  chow consists mainly of carbohydrates the results might indicate a preference not for  sucrose in particular but for carbohydrates in general. The effect this may have on other  studies is still unclear as further studies are needed to determine whether the difference  may be the result of an innate genetic difference.      Leucine has been previously shown to reduce the total caloric intake. When given in  combination with palatable food the addition of Leucine primarily reduced the intake of  chow. From a dietary perspective this would translate to a preference to sweets and fast  food at the expense of food with more nutritious content.     The RT-PCR analysis’s gives clues to how the energy regulatory circuitry responds to the  intake of selected macronutrients. When it comes to gene expression there is a significant  effect of macronutrients on the gene expression levels. The common theme for many of  the genes tested seems to be down regulation of satiety signals, as if to support over  feeding on palatable diets and in many cases sucrose in particular.     The intake of macronutrients such as sugar or fat has been showed to have an effect on  the feeding regulatory circuitry, demonstrated by the change in gene expression levels.   The response to said macronutrients is site specific which is clearly shown both by RTPCR analysis of samples from different parts of the brain, such as the brainstem or  hypothalamus, and by immunohistochemistry of selected areas. The  immunohistochemistry also confirms that the novel Oxytocin receptor-antagonist, who is  injected IP, actually passes over the blood-brain barrier and has an actual affect on the  regions of interest. The areas affected by the antagonist can be visualized and identified  through the staining of active sites.

Neuroscience

macronutrients

gene expression

PCR

electrophoresis

RT-PCR

synthesis of cDNA

immunohistochemistry

neuronal peptides

Bioengineering

Bioteknik

Biochemistry

Biokemi

Chemistry

Kemi

Cloning, annotation and mRNA expression analysis of brain cDNA related to high-egg yield in chickens

Ju, Jyh-phen

07 July 2005

To identify known genes or expressed sequence tags (ESTs) which are expressed specifically or preferentially in the chicken hypothalamus and pituitary gland related to highly reproductive performance, two reciprocal cDNA libraries were constructed using a subtractive hybridization strategy. Two different strains, L2 (dam line; n=12) and B (sire line; n=12) of Taiwan Country Chickens (TCCs), which were originated from one single strain and further subjected to 40-wk egg production and comb size, body weight, respectively since 1982, were used in our study. A total of 324 and 370 clones were identified from L2-subtract-B and B-subtract-L2 hypothalamus/pituitary cDNA libraries. 311 and 360 single inserted sequences from each cDNA library, 53 and 23 non-redundant candidate genes were identified. Quantitative reverse-transcription (RT)-PCR were used to validate the association of mRNA expression profiles of the identified candidate genes and high-egg yield trait in another 118 hypothalamuses and pituitary glands that were dissected from seven different chicken stocks, including B-, L2-, Black-, Red-feather TCCs, commercial Single-Comb White Leghorn (WL) layer at National Chung-Hsing University (NCHU) and Red-feather TCCs grouped into high eggs (Red-high) & low eggs (Red-low) to 40 wks of age at National Chiayi University (NCYU). Among identified genes including known genes and novel genes, involving 33 screened genes, Inhibitor-1 of protein phosphatase type 2A (ANP32A), 3-hydroxybutyrate dehydrogenase (BDH), Contactin (CNTN1), Deiodinase iodothyronine type II (DIO2), Inhibitor of growth family, member 3 (ING3), Lysosomal-associated transmembrane protein 4 beta (LAPTM4B), Neural cell adhesion molecule 1 (NCAM1), DJ-1 protein (PARK7), Prostaglandin D2 synthase (PGDS), Prolactin (PRL), Protocadherin 1 (PCDH1), Pleiomorphic adenoma gene 1 (PLAG1), GTP-binding protein SAR1a (SAR1A), Secretogranin II (SCG2), Stathmin 2 (STMN2), T-box protein 2 (TBX2) were up-regulated in B-subtract-L2 cDNA library. Among above-mentioned 16 identified genes, there were 9 genes related to high-egg yield in chickens., including BDH, NCAM1, PCDH1, PGDS, PLAG1, PRL, SAR1A, SCG2, STMN2.

Quantitative RT-PCR

hypothalamus

egg yield

Taiwan Country Chicken (TCC)

chicken

pituitary gland

subtractive hybridization cDNA library

Identificação de genes candidatos à indução do florescimento em cana-de-açúcar em câmara de fotoperíodo / Identification of candidates genes for flowering induction in sugarcane in photoperiod chamber

Melloni, Maria Letícia Guindalini [UNESP]

15 December 2015

Submitted by MARIA LETICIA GUINDALINI MELLONI null (letmell@yahoo.com.br) on 2016-01-14T15:02:04Z No. of bitstreams: 1 Tese_Maria_Letícia_Guindalini_Melloni.pdf: 683985 bytes, checksum: 53424c1e6da45d38a2d516aeb0a405fd (MD5) / Rejected by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br), reason: Solicitamos que realize uma nova submissão seguindo as orientações abaixo: A versão do trabalho submetida ao Repositório Institucional UNESP deve conter o texto completo. A Coordenadoria Geral de Bibliotecas se encarregará de disponibilizar apenas o conteúdo parcial que segundo a Portaria UNESP 396 de 10 de setembro de 2015 consiste em: Artigo 3º V - conteúdo parcial: as páginas pré-textuais (a folha de rosto, a dedicatória, os agradecimentos, a epígrafe, o resumo na língua vernácula, o resumo em língua estrangeira, as listas de ilustrações, de tabelas, de abreviaturas, de siglas e de símbolos e o sumário), a introdução, a conclusão ou as considerações finais e as referências do trabalho. Lembrando que: é necessário informar no formulário de submissão que a versão do trabalho a ser disponibilizada deve ser a parcial e indicar em quanto tempo a versão integral deverá ser disponibilizada, ao atingir a data limite o sistema automaticamente disponibilizará a versão completa do trabalho. 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Agradecemos a compreensão. on 2016-01-18T11:30:25Z (GMT) / Submitted by MARIA LETICIA GUINDALINI MELLONI null (letmell@yahoo.com.br) on 2016-01-18T11:52:00Z No. of bitstreams: 1 Tese_Maria_Letícia_Guindalini_Melloni.pdf: 1866484 bytes, checksum: 4990d42ce801ec4b8fe8d516cb7568d4 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-01-18T13:48:32Z (GMT) No. of bitstreams: 1 melloni_mlg_dr_jabo_par.pdf: 733459 bytes, checksum: d8b36f206c9b78d184a6e2627f86b26d (MD5) / Made available in DSpace on 2016-01-18T13:48:32Z (GMT). No. of bitstreams: 1 melloni_mlg_dr_jabo_par.pdf: 733459 bytes, checksum: d8b36f206c9b78d184a6e2627f86b26d (MD5) Previous issue date: 2015-12-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Com o intuito de aumentar o conhecimento da rede gênica envolvida no controle do florescimento em cana-de-açúcar, diferentes cultivares de cana-de-açúcar foram submetidos a tratamentos fotoperiódicos de indução e não indução do florescimento em câmara de fotoperíodo. Aos 5, 10 e 20 dias de indução, a folha +1 e a bainha foliar foram coletadas para a identificação de fragmentos diferencialmente expressos (FDEs) por meio da técnica de cDNA-AFLP entre e dentro dos tratamentos fotoperiódicos. Um total de 162 fragmentos foram selecionados e reamplificados. Destes, 63 FDEs tiveram sucesso na reação de reamplificação e foram clonados e sequenciados. As sequências foram confrontadas com seis bancos de sequências: 1. Transcritos do projeto SUCEST ;2. Proteínas do genoma de sorgo; 3. BAC de cana-de-açúcar; 4. Proteínas do genoma de arroz, 5. Proteínas presentes no Phytozome e 6. NCBI. A busca por similaridade se deu pelo uso da ferramenta BLASTn (e-value 1e-5) nos casos do banco SUCEST e dos BACs de cana-de-açúcar e BLASTx (e-value 1e-5) para os demais bancos. Dentre os 63 FDEs, 23 corresponderam a sequências de genes enquanto os outros 40 representam sequências que não estão depositadas nestes bancos (no hits). A maioria das 23 sequencias apresenta similaridade com genes que codificam proteínas hipotéticas ou preditas em diversos organismos. Com base na análise do domínio da proteína realizada pelo Pfam, seis sequências podem estar associadas ao metabolismo da indução do florescimento. Dentre estas as sequencias LM-19, LM-40 e LM-53 se destacaram. A LM-19 possui similaridade com o gene que codifica uma proteína com o domínio DNAJ sendo que proteína com este domínio é considerada mediador da integração dos sinais do florescimento em Arabidopsis thaliana. LM-40 possui similaridade com o gene que codifica proteína de domínio (F-BOX); estudos indicam forte relação deste domínio aos processos de indução ao florescimento. LM-53 tem um domínio de proteína predita semelhante ao domínio da proteína codificada pelo gene CONSTANS que regula a expressão de FLOWERING LOCUS T (FT), que codifica o florígeno em Arabidopsis thaliana e em algumas outras espécies. De maneira geral, a técnica do cDNA-AFLP foi eficiente, na identificação de FDEs ao longo dos tratamentos fotoperiódicos de indução e não indução do florescimento. Os resultados obtidos sugerem que as sequencias LM-19, LM-40 e LM-53 estão vinculadas aos metabolismos de indução do florescimento. É provável que a maioria dos FDEs obtidos possam estar envolvidos nos metabolismos da indução do florescimento, porém ainda não foram identificados na literatura. / In order to increase the knowledge of the gene network involved in sugarcane flowering induction, sugarcane cultivars were submitted to different photoperiod treatments of flowering induction and non-induction in a photoperiod facility. At 5, 10 and 20 days of induction, the +1 leaf and the leaf sheath were collected for the identification of different transcript-derived fragments (TDFs) within and between the photoperiod treatments to apply the cDNA-AFLP technique. A total of 162 TDFs were selected and re-amplified. Of these, 63 TDFs were successful in re-amplification and were cloned and sequenced. The sequences were confronted against 6 sequence databanks (SUCEST transcripts; Sorghum genome proteins; Sugarcane BACs; proteins from rice genome; Phytozome and NCBI). Similarity search was done by using the BLASTn (e-value 1e-5) tool for the SUCEST databank and sugarcane BACs while BLASTx (e-value 1e-5) was use for the other banks. Among the 63 TDFs, 23 corresponded to gene sequences while the remaining 40 represent sequences that are not deposited in these banks (no hits). The majority of the 23 sequences showed similarity with genes coding for hypothetical or predicted proteins of different organisms. Based on the protein domain analysis conducted by Pfam, six sequences may be associated with flowering induction metabolism. Among these: LM-19, LM-40 and LM-53 sequences stood out. LM-19 has similarity to the gene encoding a protein with DnaJ domain. Proteins having this domain are considered as an integrating floral signals mediator in Arabidopsis thaliana. LM-40 has similarity to the gene encoding a protein with (F-BOX) domain. This domain has a strong relationship in flowering induction processes. LM-53 has one of the predicted protein domain similar to the domain of the protein encoded by the CONSTANS gene which governs the expression of FLOWERING LOCUS T (FT), this later one encodes the florigen. Generally the cDNA-AFLP technique was effective in identifying TDFs across the flowering inductive and non-inductive photoperiodic treatments. The results suggest that LM-19, LM-40 and LM-53 sequences are linked to flowering induction metabolisms. Probably, most of the TDF here obtained may be involved in the flowering induction metabolism, although not yet been identified in the literature. / FAPESP: 2013/24020-0

cDNA-AFLP

RNA

Indução artificial

Fragmentos diferencialmente expressos

Inflorescência

Câmara de fotoperíodo

Differentially expressed fragments

Inflorescence

Photoperiod Chamber

Artificial induction

Caracterização do transcriptoma e genoma mitocondrial da formiga cortadeira Atta laevigata (Formicidae : Attini) /

Rodovalho, Cynara de Melo.

January 2011

Resumo: Formigas cortadeiras do gênero Atta, popularmente conhecidas como saúvas, são as mais derivadas dentro da tribo Attini. Apresentam grande importância ecológica, porém, pelo hábito de cortarem folhas para manutenção do fungo simbionte e pelo enorme tamanho das colônias, causam muitos prejuízos às lavouras, pastagens e plantações, sendo consideradas pragas agrícolas. Atta laevigata Smith, 1858 apresenta vasta distribuição pelo Brasil e é responsável pela herbivoria de inúmeras plantas dicotiledôneas, gramíneas e espécies nativas de diferentes biomas. O presente trabalho teve como objetivos a caracterização parcial do transcriptoma e do genoma mitocondrial de A. laevigata. Foram caracterizadas 2006 sequências únicas do transcriptoma, a partir de uma biblioteca de cDNA preparada com indivíduos inteiros da formiga. Entre essas sequências, 16 provavelmente representam genes com grande número de transcritos. Esses 16 genes estão relacionados a três funções celulares: (i) conservação de energia através de reações redox na mitocôndria; (ii) estrutural, pelo citoesqueleto e músculos; (iii) regulação da expressão gênica e metabolismo. Considerando o estilo de vida e processos biológicos chaves para essas formigas, 146 sequências foram identificadas com base na sua utilização para o controle de cortadeiras pragas. A partir de dados da biblioteca de cDNA e procedimentos envolvendo primer walking, o genoma mitocondrial de A. laevigata foi parcialmente caracterizado, apresentandose com 17920 pb, maior, portanto, do que outros já descritos em Hymenoptera, mesmo considerando-se a impossibilidade de determinação da sequência de uma pequena porção do mtDNA, envolvendo a região controle, uma parte do 12S e os tRNAs S1, V e M. Como já descrito para outros mitogenomas, o de A. laevigata apresentou alto conteúdo AT, os mesmos 13 genes codificadores... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Leafcutter ants from Atta genus, popularly known as "saúvas", are the most derived of the tribe Attini. They have major ecological importance, but, because of their habit of cutting leaves for the maintenance of the symbiotic fungus and the huge colony size, they impose severe economic damages to plantations, pastures, and agriculture, being considered as agriculture pests. Atta laevigata shows wide distribution in Brazil and it is responsible for the herbivory of many dicots, grass, and native species from different biomes. The present work aimed to characterize the transcriptome and the mitochondrial genome of A. laevigata. 2,006 unique sequences of the transcriptome were characterized from a cDNA library constructed with whole individuals. Among those sequences, 16 are likely from genes with high number of transcripts. Those 16 genes are related with three cellular functions: (i) energy conservation through redox reactions in mitochondria; (ii) cytoskeleton and muscle structuring; (iii) regulation of gene expression and metabolism. Based on lifestyle and key biological processes of these ants, 146 sequences were identified with potential use for controlling pest leafcutters. Using data from cDNA library and primer walking proceedings, the mitochondrial genome of A. laevigata was partially characterized with 17,920 bp, being larger than the others already described for Hymenoptera. A small part of the mtDNA was not sequenced, including the control region, a portion of 12S and tRNAs S1, V, and M. As described before for other mitogenomes, A. laevigata mtDNA displayed high AT contain, the same 13 proteincoding genes and the two ribosomal subunits with length and location according to the hypothetic ancestral mitogenome. Rearrangements were found for the tRNAs, but the most remarkable difference were the high number and longer length of intergenic regions presented in the mtDNA... (Complete abstract click electronic access below) / Orientador: Maurício Bacci Júnior / Coorientador: Henrique Ferreira / Banca: Flavio Henrique da Silva / Banca: Marco Antonio del Lama / Banca: Mariana Lúcio Lyra / Banca: Klaus Hartmann Hartfelder / Doutor

Formiga.

Pragas - Controle.

Gene expression. eng

cDNA library. eng

Pest leafcutter control. eng

Mitogenome. eng

Primer walking. eng