3D Numerical Modelling of Secondary Current in Shallow River Bends and Confluences

Shaheed, Rawaa

January 2016

Secondary currents are one of the important features that characterize flow in river bends and confluences. Fluid particles follow a helical path instead of moving nearly parallel to the axis of the channel. The local imbalance between the vertically varying centrifugal force and the cross-stream pressure gradient results in generating the secondary flow and raising a typical motion of the helical flow. A number of studies, including experimental or mathematical, have been conducted to examine flow characteristics in curved open channels, river meanders, or confluences. In this research, the influence of secondary currents is studied on the elevation of water surface and the hydraulic structures in channel bends and confluences by employing a 3D OpenFOAM numerical model. The research implements the 3D OpenFOAM numerical model to simulate the horizontal distribution of the flow in curved rivers. In addition, the progress in unraveling and understanding the bend dynamics is considered. The finite volume method in (OpenFOAM) software is used to simulate and examine the behavior of secondary current in channel bends and confluences. Thereafter, a comparison between the experimental data and a numerical model is conducted. Two sets of experimental data are used; the data provided by Rozovskii (1961) for sharply curved channel, and the dataset provided by Shumate (1998) for confluent channel. Two solvers in (OpenFOAM) software were selected to solve the problem regarding the experiment; InterFoam and PisoFoam. The InterFoam is a transient solver for incompressible flow that is used with open channel flow and Free Surface Model. The PisoFoam is a transient solver for incompressible flow that is used with closed channel flow and Rigid-Lid Model. Various turbulence models (i.e. Standard k-ε, Realizable k-ε, LRR, and LES) are applied in the numerical model to assess the accuracy of turbulence models in predicting the behaviour of the flow in channel bends and confluences. The accuracies of various turbulence models are examined and discussed.

Secondary Flow

Free Surface Model

Rigid-Lid Model

standard k-ε

realizable k-ε

LRR

LES

Dissection of Innate Immunity in Tomato and Tolerance to Bacterial Wilt in Solanaceae species

Naumenko, Anastasia Nikolayevna

05 April 2013

Unlike mammals, plants do not have specific immune cells. However, plants can still recognize pathogens and defend themselves. They do that by recognizing microbial-associated molecular patterns (MAMPs) and secreted pathogen proteins, called effectors. MAMP-triggered immunity (MTI) relies on recognition of MAMPs by leucine-rich repeats (LRRs) pattern-recognition receptors (PRRs). The best-studied LRR PRR is Flagellin-Sensitive 2 (Fls2), the receptor of a 22-amino acid long epitope of bacterial flagellin, called flg22. In this project, alleles of FLS2 of different tomato cultivars were sequenced and compared to each other to get insight into natural selection acting on FLS2 and to identify residues important for ligand binding. This information may be used in the future to engineer Fls2 for improved ability to recognize flagellin. MTI can be suppressed by effectors secreted by bacteria into plant cells through the type III secretion system. On the other hand, plants are equipped with repertoires of resistance proteins, which can recognize some pathogen effectors. If a pathogen carries an effector that is recognized, effector-triggered immunity (ETI) is activated and the plant is resistant. Here, eggplant breeding lines were screened for their ability to activate ETI upon recognition of effectors of the soil borne pathogen Ralstonia solanacearum, a causative agent of bacterial wilt. Four effectors were found to trigger plant defenses in some of the lines. This is the first step in cloning the genes coding for the responsible resistance proteins. These genes may be used in the future for engineering tomato and potato for resistance to bacterial wilt. / Master of Science in Life Sciences

MAMP-triggered plant immunity

effector-triggered plant immunity

LRR receptors

effector

Ralstonia solanacearum

eggplant

MicroRNAs and Trans-acting siRNA pathways in Apple (Malus x domestica Borkh.) and Peach (Prunus persica)

Xia, Rui

25 April 2013

The unveiling of small RNA (sRNA)-mediated gene regulatory pathways has profoundly shaped our understanding of the complexity of gene regulation. In eukaryotes, sRNAs have been found to control cellular metabolism, growth and differentiation, to maintain genome integrity, and to combat viruses and mobile genetic elements. To gain insight into the roles of small RNAs in apple and peach, we conducted sRNA-seq, computational analysis and molecular experiments to genome-widely characterize their microRNAs (miRNAs) and trans-acting siRNA (tasiRNA) pathways. We identified totally 75 miRNAs or families, including 23 conserved, 10 less-conserved and 42 apple-specific ones, and 118 miRNA target genes in apple. Two classical trans-acting siRNA (tasiRNA) pathways, miR390-TAS3 and miR828-TAS4, were characterized with similar but unique tasiRNA biogenesis profiles and target specificities. Importantly, miR159, miR828 and miR858 can collectively target up to 81 MYB genes potentially involved in diverse aspects of plant growth and development. In contrast to the location of the miR159 target site in a sequence-divergent region, the target sites of miR828 and miR858 are located in the region encoding the conserved R3 repeat domain of MYB proteins. 10 out of the 19 miR828-targeted MYBs undergo the biogenesis of various phased siRNA (phasiRNA), which potentially regulate diverse genes outside the MYB family. In peach, totally 94 miRNAs or families and 80 target genes were identified. Similar pathways of tasiRNA (miR828-TAS4 and miR390-TAS3) or phasiRNA (miR828-MYB-siRNA) processing were also characterized in peach. Taking advantage of reverse computation and public available deep-sequencing data, we demonstrated that the miRNA-TAS-PPR-siRNA pathway is a highly dynamic and widespread feature of eudicots. Nine eudicot plants, representing six different plant families, have evolved similar tasiRNA pathways to instigate phasiRNA production from PPR �genes, which are triggered by different 22-nt miRNAs, including miR7122, miR1509, and fve-PPRtri1/2 and through distinct mechanistic strategies, like miRNA direct-targeting or indirect-targeting through TAS-like genes, one-hit or two-hit, or even two layers of tasiRNA-TAS interactions. We found that the MIRNA genes of these miRNA triggers show great identity with the Arabidopsis MIR173, implying a common origin of this group of miRNAs (super-miR7122). Combined results from phylogenetic analyses and conservation extent profiling revealed that the super-miR7122 was potentially evolved from another miRNA superfamily (super-miR4376), which probably originated from the miR390. Additionally, the miR482/2118-NB-LRR-siRNA pathway was found to be conserved, but evolved with distinct features, in apple and peach. Taken together, widespread and complex miRNA and tasiRNA regulatory networks have been adapted in apple and peach. They add another crucial layer of regulation on gene activity and stability, and must exert essential functions in all aspects of plant life. / Ph. D.

apple

peach

deep-sequencing

miRNA

tasiRNA

TAS

MYB

PHAS

phasiRNA

PPR

NB-LRR

Low Rank and Sparse Representation for Hyperspectral Imagery Analysis

Sumarsono, Alex Hendro

11 December 2015

This dissertation develops new techniques employing the Low-rank and Sparse Representation approaches to improve the performance of state-of-the-art algorithms in hyperspectral image analysis. The contributions of this dissertation are outlined as follows. 1) Low-rank and sparse representation approaches, i.e., low-rank representation (LRR) and low-rank subspace representation (LRSR), are proposed for hyperspectral image analysis, including target and anomaly detection, estimation of the number of signal subspaces, supervised and unsupervised classification. 2) In supervised target and unsupervised anomaly detection, the performance can be improved by using the LRR sparse matrix. To further increase detection accuracy, data is partitioned into several highly-correlated groups. Target detection is performed in each group, and the final result is generated from the fusion of the output of each detector. 3) In the estimation of the number of signal subspaces, the LRSR low-rank matrix is used in conjunction with direct rank calculation and soft-thresholding. Compared to the state-of-the-art algorithms, the LRSR approach delivers the most accurate and consistent results across different datasets. 4) In supervised and unsupervised classification, the use of LRR and LRSR low-rank matrices can improve classification accuracy where the improvement of the latter is more significant. The investigation on state-of-the-art classifiers demonstrate that, as a pre-preprocessing step, the LRR and LRSR produce low-rank matrices with fewer outliers or trivial spectral variations, thereby enhancing class separability.

supervised classification

unsupervised classification

target detection

anomaly detection

LRR

LRSR

Characterization of the soybean genome in regions surrounding two loci for resistance to soybean mosaic virus

Hayes, Alec J.

11 August 1998

Soybean mosaic virus (SMV), has been the cause of numerous and often devastating disease epidemics, causing reduction in both the quality and quantity of soybeans worldwide. Two important genes for resistance to SMV are Rsv1 and Rsv4. Alleles at the Rsv1 locus have been shown to control resistance to all but the most virulent strain of SMV. This locus has been mapped previously to the soybean F linkage group. Rsv4 is an SMV resistance locus independent of Rsv1 and confers resistance to all strains of SMV. This locus has not been mapped previously. The purpose of this study is to investigate the two genomic regions that contain these vitally important resistance genes. A population of 281 F2 individuals that had previously been genotyped for reaction to SMV was evaluated in a mapping study which combined bulk segregant analysis with Amplified Fragment Length Polymorphism (AFLP). A Rsv4-linked marker, R4-1, was identified that mapped to soybean linkage group D1b using a reference mapping population. More than 40 markers were mapped in the Rsv4 segregating population including eleven markers surrounding Rsv4. This will provide the necessary framework for the fine mapping of this important genetic locus. Previous work has located Rsv1 to a genomic region containing several important resistance genes including Rps3, Rpg1, and Rpv. An RFLP probe, NBS5, whose sequence closely resembles that of several cloned plant disease resistance genes has been mapped to this chromosomal region. The efficacy of using this sequence to identify potential disease resistance genes was assessed by screening a cDNA library to uncover a candidate disease resistance gene which corresponds to this NBS5 sequence. Two related sequence classes were identified that correspond to NBS5. Interestingly, one class corresponds to a full length gene closely resembling other previously cloned disease resistance genes offering evidence that this NBS5-derived clone is a candidate disease resistance gene. A new marker technique was developed by combining the speed and efficiency of AFLP with DNA sequence information from cloned disease resistance genes. Using this strategy, three new markers tightly linked to Rsv1 were identified. One of these markers, which maps 0.6 cM away from Rsv1, has motifs consistent with other cloned disease resistance genes, providing evidence that this approach is an efficient method for targeting genomic regions where disease resistance genes are located. / Ph. D.

gene cloning

gene mapping

plant disease resistance

AFLP

nucleotide binding site (NBS)

leucine rich repeat (LRR)

Caractérisation de récepteurs à activité kinase impliqués dans la mise en place de l'architecture racinaire chez le riz / Characterization of receptor kinases involved in the establishment of root architecture in rice

Bettembourg, Mathilde

14 December 2016

Les racines ont deux grands rôles. Le premier est le prélèvement de l’eau et des éléments nutritifs et le second est l’ancrage dans le sol. Identifier les gènes responsables de la mise en place des tissus et de l'architecture du système racinaire est donc essentiel pour pouvoir améliorer les variétés de riz soumises à des stress abiotiques de plus en plus fréquents et nombreux du fait du changement climatique. Au cours de cette thèse, j'ai réalisé une analyse fonctionnelle du gène DEFECTIVE IN OUTER CELL LAYER SPECIFICATION (DOCS1) qui appartient à la famille des récepteurs kinases à répétitions riches en leucine (LRR-RLK). Ces protéines sont composées de deux domaines principaux: un domaine extra-cytoplasmique composé de répétitions LRR et un domaine kinase intra-cytoplasmique. Un mutant de ce gène, nommé c68, possède une mutation non-sens dans le domaine kinase. Les plantes mutantes c68 présentent plusieurs phénotypes: une sensibilité accrue à l'aluminium, une réduction du nombre et de la taille des poils absorbants dans les racines, et des couches d’exoderme/épiderme d’identité mêlée. Le premier chapitre de la thèse porte sur l’étude conjointe de lignées knock-out CRISPRs du gène DOCS1 et de c68. Nos résultats ont montré que les mutants c68 et CRISPRs présentaient les mêmes phénotypes : sensibilité à l’aluminium, défauts des poils absorbants et tissus externes d’identité mixte. Ces résultats suggéraient que chez le mutant c68, soit la protéine DOCS1 n'était pas fonctionnelle, soit elle n'était pas traduite. Nos analyses phénotypiques ont aussi révélé que tous les mutants présentaient des défauts de réponse à la gravité à différents stades de développement. A 3 jours, un retard de réponse à la gravité était observé pendant la première heure après gravistimulation. Les plantules mutantes présentaient aussi des défauts de localisation d’un transporteur d’auxine. A 40 jours, nous avons observé que l'angle du cône racinaire des plantes mutantes était plus ouvert que celui des plantes sauvages. Deux gènes liés à l’auxine et plusieurs QTLs ont déjà été identifiés comme participant à ce phénotype chez le riz. Dans la suite de notre étude, nous avons donc cherché à identifier de nouveaux QTLs et gènes impliqués dans ce phénotype morphologique par étude d'association pan-génomique dans deux panels Indica et Japonica. Toutes les accessions de l'écotype bulu d'Indonésie et trois japonicas tempérés d'Asie du Sud présentaient un angle du cône racinaire très ouvert. En utilisant un modèle mixte associé à une technique de ré-échantillonnage, 55 QTLs ont été détectés. L'analyse des gènes sous-jacents ou voisin (+/- 50kb) a identifié 539 gènes, dont 6 LRR-RLK, 5 gènes liés à l’auxine et 5 gènes avec une fonction validée dans le développement ou l'architecture racinaire. Une approche complémentaire par cartographie génétique classique est proposée pour identifier les gènes en cause dans la ou les mutations à angle du cône racinaire très ouvert. Des perspectives de poursuite du travail effectué sont aussi présentées afin de déterminer si le phénotype affectant l'angle du cône racinaire induit par les mutations du gène DOCS1 ou des nouveaux gènes identifiés est lié à des perturbations des flux d’auxine. / Roots have two major roles. The first one is to uptake water and nutrients and the second one is to anchor plants into the ground. Identifying the genes responsible for the establishment of tissues and architecture of the root system is essential to improve rice varieties subject to increasingly frequent and numerous abiotic stresses due to climate change. During my PhD, I undertook a functional analysis of the DEFECTIVE IN OUTER CELL LAYER SPECIFICATION (DOCS1) gene which belongs to the Leucine-Rich Repeat Receptor-Like Kinase (LRR-RLK) family. These proteins are composed of two main domains: an extra-cytoplasmic domain containing LRR repeats and a cytoplasmic kinase domain. A mutant of this gene, named c68, carries a nonsense mutation in the kinase domain. The c68 mutant plants show several phenotypes: increased sensitivity to aluminum, reduced number and size of root hairs, and layers of external tissues with exodermis/epidermis mixed identity. The first chapter of the thesis focuses on the joint study of knockout CRISPRs lines of the DOCS1 gene and c68. Our results showed that the c68 and CRISPRs mutants displayed the same phenotypes: sensitivity to aluminum, defects in root hairs and mixed identity of external tissues. These results suggested that in the c68 mutant, either the DOCS1 protein was not functional, or the protein was not translated. Our phenotypic analyses also showed that all mutants exhibited impaired gravity responses at different development stages. At 3 days, a delay of response to gravity was observed during the first hour after gravistimulation. Mutant seedlings also had defects in an auxin transporter localization. At 40 days, we observed that the root cone angle of mutant plants was more open than that of wild-type plants. Two genes associated with auxin and several QTLs have been identified as contributing to this phenotype in rice. In the rest of our study, we therefore tried to identify new QTLs and genes involved in this morphological phenotype by a genome-wide association study in two Indica and Japonica panels. All accessions of the bulu ecotype from Indonesia and three South Asian temperate japonica had a very open root cone angle. Using a mixed model associated with a resampling technique, 55 QTLs were detected. The analysis of the underlying or neighbor (+/- 50kb) genes identified 539 genes, including 6 LRR-RLK, 5 genes related to auxin and 5 genes with a function validated in root development or architecture. A complementary approach by classical genetic mapping is proposed to identify genes involved in the mutation(s) involved in very open root cone angle. Prospective research lines are also presented to determine if the root cone angle phenotype , induced by DOCS1 or by newly identified genes, is linked with disruption of auxin fluxes.

Racines

Méristème racinaire

Lrr-Rlk

Biologie moléculaire

Étude d'association

Root

Root meristem

Lrr-Rlk

Molecular biology

Association study

Clusters de gènes de résistance aux maladies chez le haricot commun : bases moléculaires, régulation et évolution / Disease resistance gene clusters in common bean : molecular basis, regulation and evolution

Richard, Manon

16 December 2014

Le haricot commun est la légumineuse à graine la plus consommée au monde en alimentation humaine. Le génome du haricot possède plusieurs énormes clusters de gènes de résistance (R) qui ont la particularité de se cartographier en extrémité de groupes de liaison. Le génome du haricot commun (génotype Andin G19833) a été récemment séquencé et nous avons participé à ce projet en annotant la famille des NB-LRR (NL), classe prépondérante des gènes de résistance. Ces données génomiques nous ont permis de réaliser les 3 études suivantes. (i) L’identification des bases moléculaires de Co-x un gène R vis-à-vis d’une souche très virulente de C. lindemuthianum chez JaloEEP558 a été initiée. La cartographie fine de Co-x suivie du séquençage de la région cible chez JaloEEP558 (Co-x) a permis d’identifier un gène candidat codant une kinase atypique qui pourrait être la cible d’un effecteur fongique, gardée par un gène R. (ii) Des études récentes ont mis en évidence l’implication de petits ARNs (miRNAs induisant la production de phased siRNAs) dans la régulation de l’expression des NL. Le séquençage et l’analyse de banques de sRNAs de haricot nous ont permis d’identifier ce mécanisme et de mettre le doigt sur un nouveau mécanisme de régulation des NL impliquant des sRNAs de 24 nt. (iii) Des ADN satellites ont été étudiés à l’échelle du génome du haricot. L’étude des centromères de haricot a permis de mettre en évidence l’existence de 2 ADN satellites différents, Nazca et CentPv2. Nous avons également étudié un ADN satellite subtélomérique khipu précédemment identifié au niveau de 2 clusters de gènes R du haricot. L’étude de khipu à l’échelle du génome suggère l’existence d’échanges fréquents de séquences entre subtélomères de chromosomes non homologues. Ces résultats nous ont amenés à proposer que des éléments structuraux et une combinaison de mécanismes de régulation (TGS et PTGS) permettent la prolifération des NL sans effet néfaste pour la plante, conduisant à l’obtention de très gros clusters de NL dans le génome du haricot. / Common bean is the main source of protein for human consumption in many developing countries. Several huge disease resistance (R) gene clusters have been mapped at the end of common bean linkage groups. The common bean genome (Andean genotype G19833) has recently been sequenced. Access to the complete genome sequence of common bean allowed us to annotate the Nucleotide Binding-Leucine Rich Repeat (NL) encoding gene family, the prevalent class of disease R genes in plants, and to perform the 3 following studies: (i) We have investigated the molecular basis of Co-x, an anthracnose R gene to a highly virulent strain of C. lindemuthianum, previously identified in the Andean cultivar JaloEEP558. Fine mapping of Co-x and sequencing of the target region in JaloEEP558, allowed us to identify a candidate gene encoding an atypical kinase. We hypothesised that this atypical kinase is a fungal effector target. (ii) Several recent studies have highlighted the role of small RNA (miRNAs that triggered phased siRNAs production) in the regulating of NL gene expression. Analyses of small RNAs libraries of common bean led to the identification of this mechanism in common bean and also allowed us to propose a new NL regulation pathway involving 24 nt sRNAs. (iii) We have studied centromeric and subtelomeric satellite DNAs at common bean genome level. We have identified 2 different satellite DNAs in common bean centromeres, Nazca and CentPv2. We have also conducted the analyze of the subtelomeric satellite khipu, previously identified in common bean R clusters and confirmed that frequent sequence exchange occurs between non-homologous chromosome ends in common bean genome. Together, these results led us to propose that both structural elements and a combination of regulatory mechanisms (TGS, PTGS) allow the amplification of NL sequences without detrimental effect for the plant leading to the large NL clusters observed in common bean.

Haricot commun

Phaseolus vulgaris

Anthracnose

Séquence du génome

Gènes de résistance

NB-LRR

Petits ARNs non codants

ADN satellite

Common bean

Phaseolus vulgaris

Anthracnose

Complete genome sequence

Resistance genes

NB-LRR

Small non coding RNAs

Satellite ADN

Desenvolvimento de marcador molecular para resistência a Tobacco mosaic virus e herança da resistência a Meloidogyne incognita raça 3 em tabaco / Development of molecular marker for resistance to Tobacco mosaic virus and heredity of resistance to Meloidogyne incognita race 3 in tobacco

Dalla Valle, Raphaelle Komatsu

05 September 2008

Este projeto objetivou desenvolver um marcador molecular ligado ao gene de resistência a Tobacco mosaic virus (TMV), em vista da necessidade de aprimorar os métodos de melhoramento de plantas para atender crescentes demandas de produtividade. O outro objetivo deste trabalho foi a avaliação de uma população segregante F2 e de retrocruzamento (RC1F1) a Meloidogyne incognita raça 3, oriunda do cruzamento das cultivares comerciais Coker 176 (C176) e Coker 371 Gold (C371G). Para o desenvolvimento do marcador ligado ao gene de resistência a TMV, o gene N, foram desenvolvidos iniciadores específicos para regiões conservadas (TIR, NBS e LRR) deste gene com base em sua seqüência. Estes iniciadores foram utilizados para amplificar um marcador cuja ligação ao referido gene foi confirmada em 200 indivíduos de população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e outra suscetível ao vírus (Kentucky326). A proporção entre o número de plantas resistentes e suscetíveis (154:46) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência, que seria de 3:1. Os resultados indicaram que o marcador e o gene estão proximamente ligados segundo taxa de recombinação, que foi de 1%. Na avaliação da hereditariedade a M.incognita utilizou-se 141 indivíduos da população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e suscetível (Coker 371G) e 138 indivíduos de RC1F1 ([C176 X C371G] X C371G). Os resultados obtidos entre a proporção entre o número de plantas resistentes e suscetíveis da população F2 (102:39) e da RC1F1 (67:71) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência. / The aim of this study is to develop a molecular marker linked to the resistant gene to Tobacco mosaic virus (TMV) considering the necessity to improve plant breeding to meet growing demands of productivity. The other goal of this study is to evaluate the mode of inheritance of an F2 segregating population and backcross (BCF1) population of Meloidogyne incognita race 3 originated from cross breeding between commercial cultivars Coker 176 and Coker 371 Gold. For the development of the marker linked to the TMV resistant gene, the N gene, specific primers of this gene were developed for conserved regions (TIR, NBS and LRR) based on their sequence. These primers were used to amplify a marker whose connection with the aforementioned gene was confirmed in 200 individuals in a segregating F2 population originated from the cross breeding between a resistant cultivar (Coker176) and another cultivar which is susceptible to the virus (Kentucky326). The proportion between the number of resistant and susceptible plants (154:46) did not statistically differ from the one expected in the segregation of one dominant resistance, which would be a 3:1 segregation ratio. The results indicated that the marker and the gene are narrowly linked according to recombination ratio 1%. In the heredity evaluation of resistance to M.incognita 141 plants of the segregating F2 population originated from the cross breeding of a resistant (Coker176) and susceptible cultivar (Coker 371G) and 138 plants of backcross BC1F1 ([C176 X C371G) X C3371G) were used. The outcome of the proportion between the number of resistant and susceptible plants of segregating F2 (102:39) and BC1F1 population (67:71) were not statistically different from the ones expected for a monogenic dominant resistance.

Fumo

LRR

Marcador molecular

N gene

Nematóides

Perfect marker

Resistência genética vegetal

Root-knot nematode.

Tobacco

Vírus de plantas.

Desenvolvimento de marcador molecular para resistência a Tobacco mosaic virus e herança da resistência a Meloidogyne incognita raça 3 em tabaco / Development of molecular marker for resistance to Tobacco mosaic virus and heredity of resistance to Meloidogyne incognita race 3 in tobacco

Raphaelle Komatsu Dalla Valle

05 September 2008

Este projeto objetivou desenvolver um marcador molecular ligado ao gene de resistência a Tobacco mosaic virus (TMV), em vista da necessidade de aprimorar os métodos de melhoramento de plantas para atender crescentes demandas de produtividade. O outro objetivo deste trabalho foi a avaliação de uma população segregante F2 e de retrocruzamento (RC1F1) a Meloidogyne incognita raça 3, oriunda do cruzamento das cultivares comerciais Coker 176 (C176) e Coker 371 Gold (C371G). Para o desenvolvimento do marcador ligado ao gene de resistência a TMV, o gene N, foram desenvolvidos iniciadores específicos para regiões conservadas (TIR, NBS e LRR) deste gene com base em sua seqüência. Estes iniciadores foram utilizados para amplificar um marcador cuja ligação ao referido gene foi confirmada em 200 indivíduos de população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e outra suscetível ao vírus (Kentucky326). A proporção entre o número de plantas resistentes e suscetíveis (154:46) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência, que seria de 3:1. Os resultados indicaram que o marcador e o gene estão proximamente ligados segundo taxa de recombinação, que foi de 1%. Na avaliação da hereditariedade a M.incognita utilizou-se 141 indivíduos da população segregante F2 oriunda do cruzamento entre uma linhagem resistente (Coker176) e suscetível (Coker 371G) e 138 indivíduos de RC1F1 ([C176 X C371G] X C371G). Os resultados obtidos entre a proporção entre o número de plantas resistentes e suscetíveis da população F2 (102:39) e da RC1F1 (67:71) não diferiu estatisticamente daquela esperada no caso de segregação de um gene dominante de resistência. / The aim of this study is to develop a molecular marker linked to the resistant gene to Tobacco mosaic virus (TMV) considering the necessity to improve plant breeding to meet growing demands of productivity. The other goal of this study is to evaluate the mode of inheritance of an F2 segregating population and backcross (BCF1) population of Meloidogyne incognita race 3 originated from cross breeding between commercial cultivars Coker 176 and Coker 371 Gold. For the development of the marker linked to the TMV resistant gene, the N gene, specific primers of this gene were developed for conserved regions (TIR, NBS and LRR) based on their sequence. These primers were used to amplify a marker whose connection with the aforementioned gene was confirmed in 200 individuals in a segregating F2 population originated from the cross breeding between a resistant cultivar (Coker176) and another cultivar which is susceptible to the virus (Kentucky326). The proportion between the number of resistant and susceptible plants (154:46) did not statistically differ from the one expected in the segregation of one dominant resistance, which would be a 3:1 segregation ratio. The results indicated that the marker and the gene are narrowly linked according to recombination ratio 1%. In the heredity evaluation of resistance to M.incognita 141 plants of the segregating F2 population originated from the cross breeding of a resistant (Coker176) and susceptible cultivar (Coker 371G) and 138 plants of backcross BC1F1 ([C176 X C371G) X C3371G) were used. The outcome of the proportion between the number of resistant and susceptible plants of segregating F2 (102:39) and BC1F1 population (67:71) were not statistically different from the ones expected for a monogenic dominant resistance.

Fumo

Marcador molecular

Nematóides

Resistência genética vegetal

Vírus de plantas.

LRR

N gene

Perfect marker

Root-knot nematode.

Tobacco

Recombinant Proteins for Biomedical Applications

Kim, Christina Sue Kyung

06 July 2020

Both technological and experimental advancements in the field of biotechnology have allowed scientists to make leaps in areas such nucleic acid, antibody, and recombinant protein technologies. Here we focus on the use of recombinant proteins as molecular recognition motifs, wound healing biomaterials, and agents for cell cycle pathway elucidation are discussed. The author's primary project is described in chapters 2 and 3, and is focused on designed leucine-rich repeat proteins which offer increased stability, modularity, and surface area for binding interactions. These proteins bind at least two muramyl dipeptide ligands with picomolar to nanomolar affinity (Kd1 = 0.04 – 3.5 nM); as measured by fluorescence quenching experiments and ITC. The longest designed repeat, CLRR8, has a Kd app value of 1.0 nM which is comparable to full length native NOD2 protein. Molecular docking simulations revealed the locations of two potential binding sites and their respective interactions. The series of proteins represents a foundation for a high affinity and highly specific molecular recognition scaffold that has the potential to bind a variety of ligands. Previously the author contributed to the design of recombinant keratin proteins, and the work in Chapter 4 builds on the original design to allow for controlled degradation in wound healing systems. Site-directed mutagenesis was utilized to introduce these degradation sites, and modified keratin proteins were expressed with no differences to native recombinant keratin proteins. Success in engineering a variation of native keratin protein with no issues in expression lay the foundation for further engineering of native keratin or other relevant proteins for improved functionality. Chapter 5 describes steps towards producing human Aurora borealis (Bora) protein, an important substrate in cell cycle regulation, by in vitro transcription-translation with locked Ser–Pro analogues. This will allow for the elucidation of the active isomerization form to ensure proper cell division. Site-directed mutagenesis successfully introduced the amber codon to relevant Ser-Pro sites at positions 274 and 278. These mutated Bora genes along with modified ribosomes and aminoacyl tRNA will allow for the incorporation of locked dipeptide analogues. Expression of native Bora was carried out as a control, and appeared to express in dimeric form. The experiments carried out in Chapter 5 describe and outline all the molecular biology work completed and to be completed for this novel method of studying cis-trans isomerization in living cells. / Doctor of Philosophy / Sequencing of the human genome and the rapid development of gene editing and recombinant DNA technologies paved the way for a massive shift in the pharmaceutical industry. The first pharmaceutical companies in the 19th century started as fine chemicals businesses. The discovery of penicillin introduced antibiotics, and improved synthetic techniques led to the giants we know as big pharma today. Today, in the 21st century both computing and biotechnology has allowed for great leaps forward in precision medicine. Biotechnology refers to the manipulation of living organisms or their components to produce useful commercial products. In the pharmaceutical industry this refers to genetic engineering for novel pharmaceuticals. Here, we focus on the use of recombinant technology to create proteins for use in biomedical applications. Recombinant proteins are proteins formed by laboratory methods of molecular cloning. Through this technology, we are able to elucidate sequence-structure-function relationships of proteins, and determine their specific functions. Additionally, recombinant methods allow us to fine tune or modify the sequences of natural proteins to be more effective scaffolds or reagents. Chapter 3 focuses on the development of synthetic proteins for medical diagnostics. We designed a protein scaffold, based on natural innate immunity proteins, to detect bacteria cell wall components. Chapter 4 focuses on the engineering of keratin protein with applications in wound healing. We introduce controlled degradation of the biomaterial for use in potential drug delivery systems at the wound site. Chapter 5 focuses on the use of recombinant technologies aiding in the elucidation of a regulatory protein's function in cell division.

recombinant

protein engineering

consensus design

repeat proteins

LRR

molecular recognition motifs

keratin

biomaterials

Aurora A

Bora

Pin1

cell cycle