Global ETD Search

31	Design, Structure-Activity Relationships, and Biological Evaluation of Small Molecule PTPN22 Inhibitors Brenson A Jassim (18065362) 27 February 2024 (has links) <p dir="ltr">Within the last decade, cancer immunotherapy, the therapeutic strategy of enhancing the body’s immune system to curb tumor growth, has reached the front lines in the war on cancer. Although common strategies such as adoptive cell transfer and immune checkpoint blockade have enjoyed success against some cancers, they regrettably lack durable efficacy across a broad patient population inflicted by heterogeneous and diverse cancer types. Moreover, application of these biological therapeutics is likewise limited due to various toxicities frequently encountered in the clinic. Taking these into account, the next generation of immunotherapies must exploit novel immunomodulatory targets and therapeutic strategies that can possess both enhanced efficacy compared to current options and more acceptable toxicity profiles in patients. Compared to biologics, small molecule inhibitors are desirable as they may circumvent concerns involving efficacy and toxicity, while allowing access to a broader arsenal of macromolecular targets. Recently, protein tyrosine phosphatase nonreceptor 22 (PTPN22), a key desensitization node in T cell signaling, has emerged as a systemic and translatable cancer immunotherapy target. Nonetheless, many of its precise functions in various immune cells is not fully resolved, thus there is a critical need for both novel chemical probes for biological interrogation and inhibitors with improved <i>in vivo </i>efficacy for further therapeutic development.</p><p dir="ltr">Built upon an overview of PTPN22’s structure, function, and value as an immunotherapy target, as well as a comprehensive assessment of reported inhibitors, this dissertation documents two separate medicinal chemistry campaigns on existing PTPN22 scaffolds. Herein, the structure activity relationships, design, and biological evaluation of a novel, superiorly selective and cell-active probe/ lead compound is disclosed. This dissertation also reports the design of a novel PTPN22 inhibitor with enhanced potency, selectivity, cellular efficacy, <i>in vivo </i>pharmacokinetics, and <i>in vivo </i>antitumor efficacy in mice. Our research efforts and the overall status and future directions of the field are also succinctly discussed.</p> Pharmaceutical sciences PTPN22 LYP PTP Inhibitors Medicinal Chemistry structure-activity relationships (SARs)
32	PROFILING THE INTRINSIC SEQUENCE SPECIFICITY OF PROTEIN TYROSINE PHOSPHATASES Selner, Nicholas January 2013 (has links) No description available. Chemistry Biochemistry
33	<i>Telenomus podisi</i>: one species, or more? Bowers, Kelsey Rae 01 September 2015 (has links) No description available. Biology Evolution and Development Entomology Systematic
34	Déterminants moléculaires de la scoliose idiopathique de l'adolescent Elbakry, Mohamed 04 1900 (has links) La scoliose est la déformation de la colonne vertébrale la plus répandue. Elle atteint 3 à 4% de la population pédiatrique et dans 85% des cas, aucune cause n’a été identifiée. Ces cas sont appelés idiopathiques et les symptômes apparaissent durant la puberté; d’où le terme de ‘scoliose idiopathique de l’adolescent (SIA). Cette pathologie atteint le plus souvent les jeunes filles, en nombre et en sévérité. Ces dernières années, plusieurs hypothèses ont été proposées afin d’élucider l’étiologie de cette pathologie. Celles-ci ont mis de l’avant différents facteurs génétiques, biochimiques, mécaniques, neurologiques, musculaires ou hormonaux. Plusieurs études ont rapporté des formes familiales de scoliose, soutenant la thèse d’une prédisposition génétique. Nous avons démontré que les patients souffrant de SIA présentent un défaut de signalisation cellulaire médiée par les protéines Gi et un taux élevé d’ostéopontine (OPN) circulante. En utilisant une approche de type ‘gène candidat’, nous avons montré que la protéine tyrosine phosphatase μ (PTPμ) régule l’activité du complexe d’intégrines α5/β1 (récepteur de l’OPN) via la protéine kinase PIPKIγ. Dans ce but, nous avons utilisé des cultures primaires d’ostéoblastes issues de biopsies de patients et de cas traumatiques comme sujets contrôles. Les biopsies osseuses de patients ont été obtenues lors de l’intervention chirurgicale à partir des vertèbres T3 à L4, selon les différentes procédures. Les biopsies issues de cas traumatiques proviennent d’autres types d’os (tibia, crête iliaque, fémur). Les profils d’expression du gène PTPRM (codant pour la protéine PTPμ) ont été étudiés par PCR quantitative (qPCR). Les taux de protéines PTPμ ont été analysés par immunoprécipitation suivi d’un western blot. Pour évaluer le rôle de cette protéine, nous avons bénéficié d’un modèle murin. Machida et al. ont démontré qu’il existe un taux plus élevé de scoliose parmi les souris C57Bl/6 bipèdes obtenues suite à l’amputation des membres supérieurs, sous anesthésie, cinq semaines après la naissance. Nous avons utilisé des cultures primaires d’ostéoblastes issues de la colonne ii vertébrale de souris C57Bl/6 bipèdes, délétées du gène PTPRM (souris dites ‘KO’), afin d’évaluer le niveau de signalisation cellulaire spécifique des protéines Gi par un test fonctionnel: la technique de spectroscopie cellulaire di-électrique (SCD). Selon nos données, 85% des souris bipédales ‘KO’ pour le géne PTPRM développent une scoliose (modérée à sévère) contre 55% des souris contrôles C57Bl6 bipèdes. De plus, les niveaux de PTPμ exprimée par les ostéoblastes de 34 patients SIA se trouvent diminués par comparaison à 17 sujets contrôles. Nos études de souris bipèdes ont montré que l’inactivation du gène PTPRM augmente l’incidence et la sévérité de la scoliose, sans pour autant affecter les taux circulant d’OPN ou l’expression de ses récepteurs. Par ailleurs, dans ce même contexte, nous avons remarqué une augmentation de l’interaction entre l’OPN et l’intégrine β1 en l’absence du gène PTPRM. Les cellules issues de ces souris bipèdes KO montrent une réduction dans leurs niveaux de signalisation cellulaire médiée par les protéines Gi après stimulation par l’OPN. Cette diminution est en grande partie récupérée après traitement des cellules par un siRNA spécifique de la protéine PIPK1γ, substrat de PTPμ qui favorise la fixation de ligands aux intégrines. Ces études apportent les premières indications que la perte d’expression de PTPμ est impliquée dans le développement de la SIA, en amplifiant probablement l’effet inhibiteur de l’OPN sur la signalisation cellulaire médiée par les protéines Gi. Ces études permettent une meilleure compréhension de l’étiologie de la SIA. Elles pourraient avoir une contribution importante dans le développement futur de méthodes diagnostique et thérapeuthique dans le but d'arrete l’apparition et l’évolution de la maladie chez les enfants atteints. / Adolescent idiopathic scoliosis (AIS) is the most common form of scoliosis that affects 3-4% of the global pediatric population. In more than 85% of cases, no specific cause can be identified. Such cases are called idiopathic and occur mostly during adolescence. AIS affects mainly females in number and severity. Over the past years, many hypotheses were proposed to explain the etiology of AIS, including genetic, biochemical, mechanics, neurological, muscular and hormonal factors. Several studies have reported a high incidence of scoliosis in some families, which argues for a genetic cause of this disease. We demonstrated that AIS patients have a Gi protein signaling defect and exhibit high levels of circulating Osteopontin (OPN). The goal of this thesis is to identify the mechanisms regulating OPN signaling activity in AIS patients. We have used a candidate gene driven approach and discovered that protein tyrosine phosphatase μ (PTP μ) regulates α5β1 integrin (a known OPN receptor) through phosphate kinase type 1 gamma (PIPK1γ). To achieve our goal, we have used primary osteoblast cell cultures derived from AIS patients and biopsies from control subjects. Bone specimens were obtained intraoperatively from vertebras (varying from T3 to L4 according to the surgical procedure performed) while with trauma cases used as non-scoliotic controls, bone specimens were obtained from other anatomical sites (tibia, femur or iliac crest). Expression profiles of the RPTPM gene (encoding for PTPμ) were studied by qPCR. On the other hand, PTPμ protein levels were determined by immunoprecipitation followed by western blot. To evaluate the role of this protein in AIS etiopathogenesis, we took advantage of an animal model exhibiting a higher scoliosis incidence when maintained in a bipedal state. [1], [2] Bipedal surgeries were performed on C57Bl/6 mice after weaning (5-weeks after birth) by amputation of the forelimbs and tail under anesthesia as reported by Oyama et al. (2006). [1] We used the same approach with PTPμ knockout mice and primary osteoblast culture were derived from the spine of these mice to assess Gi protein signaling through a functional assay termed Cellular Dielectric Spectroscopy (CDS). Bipedal PTPμ knockout mice develop scoliosis more often (85%) in number and severity, than control C57Bl/6 bipedal mice (55%). Interestingly, functional analysis of osteoblasts derived from PTPμ KO mice by CDS method showed a flaw in the transmission of Gi protein coupled receptor signaling similar to a specific AIS patient subgroup. Furthermore, the clinical relevance of PTPμ was strengthened by the fact that a decrease in the gene expression level of PTPμ was observed in 34 AIS patients when compared to 17 control subjects. Such a decrease was also confirmed at the protein level. We demonstrated that genetic deletion of PTPμ enhances the incidence and severity of scoliosis without affecting plasma levels of OPN or the expression of its receptors. In contrast, increased interaction of OPN with β1 integrin was noticed in cells depleted of PTPμ. Furthermore, reduction of Gi- protein coupled receptor GiPCR signaling by OPN was also enhanced in these cells, while their response to GiPCR stimulation was improved with siRNA of phosphatidylinositol-phosphate kinase type 1 gamma (PIPK1γ), a PTPμ substrate that favours ligand binding to integrins. These studies provide the first indication that the loss of PTPμ influences the nature of idiopathic scoliosis, possibly by amplifying the inhibitory effect of OPN on GiPCR signaling. This study allows a better understanding of AIS etiology and could have an impact for the future development of innovative diagnostic methods and eventual pharmacological approaches in order to prevent AIS and stop its progression in affected children. Scoliose idiopathique adolescente (SIA) Protéines G Signalisation Osteopontin Adolescent idiopathic scoliosis (AIS) G proteins Osteopontin Signaling Protein tyrosine phosphatase μ (PTP μ)
35	Novos inibidores de LMW-PTP e CDC25B : planejamento baseado em fragmentos moleculares com uso de métodos in silico, ensaios de inibição e cristalografia de proteínas / New inhibitors of LMW-PTP and CDC25B : fragment-based drug design using in silico methods, inhibition assays and protein crystallography Fonseca, Emanuella Maria Barreto, 1984- 27 August 2018 (has links) Orientadores: Ricardo Aparicio, Munir Salomão Skaf / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-27T01:45:39Z (GMT). No. of bitstreams: 1 Fonseca_EmanuellaMariaBarreto_D.pdf: 13119998 bytes, checksum: 0b4e5f9502ec2b9b4e347bcd68c9e261 (MD5) Previous issue date: 2015 / Resumo: O câncer é uma doença cuja incidência e prevalência atinge proporções alarmantes, estabelecendo-se, hoje, como um problema mundial de saúde pública. A fosforilação de proteínas é um evento dinâmico e reversível, governado pela atividade oposta de proteínas tirosina quinases e proteínas tirosina fosfatases. Níveis elevados das fosfatases LMW-PTP e CDC25B foram observados em uma ampla variedade de tumores e, assim, estas foram selecionadas como alvo para o desenvolvimento de novos inibidores. Utilizando métodos in silico, uma coleção, contendo aproximadamente 500 mil fragmentos, foi montada a partir de um banco de compostos comerciais. Para cada enzima, esses fragmentos foram submetidos a distintos protocolos de docagem molecular, através dos quais 19 pequenas moléculas foram selecionadas e adquiridas comercialmente. Os resultados computacionais foram validados por ensaios de inibição enzimática, tendo sido identificados novos esqueletos moleculares capazes de inibir mais do que 50% da atividade enzimática, obtendo-se valores de eficiência do ligante de até 0,33 kcal mol-1 por átomo diferente de hidrogênio. Paralelamente, uma série de compostos derivados do ácido benzenofosfônico foi ensaiada frente à LMW-PTP após estudos de docagem, seguindo-se estudos cristalográficos que levaram à obtenção de duas estruturas inéditas: uma com a proteína na forma apo e outra de um complexo LMW-PTP:inibidor. Além do sítio ativo já conhecido, observou-se um segundo sítio cristalográfico cuja potencial função biológica, se confirmada, poderia abrir novas possibilidades para modular a atividade da LMW-PTP, perspectiva que demanda investigação / Abstract: Cancer is a disease whose incidence and prevalence have reached alarming proportions, emerging today as a major public health problem. Protein phosphorylation is a dynamic and reversible event, governed by the opposite activities of protein tyrosine kinases and protein tyrosine phosphatases. High levels of the phosphatases LMW-PTP and CDC25B have been observed in a wide variety of tumors and, for this reason, they have been selected as targets for inhibitor development. Using in silico methods, a collection of approximately 500,000 fragments was assembled from a database of commercial compounds. For each enzyme, these fragments were subjected to different molecular docking protocols, through which 19 small molecules have been selected and purchased. The computational results were validated by enzyme inhibition assays, with the identification of new molecular scaffolds capable of inhibiting in more than 50% the enzyme activity, resulting in ligand efficiency values up to 0.33 kcal mol-1 per non-H atom. Similarly, a number of compounds derived from benzenophosphonic acid was tested against the LMW-PTP after docking studies, followed by crystallographic studies which resulted in two new structures: one of the apo protein and another of a complex LMW-PTP:inhibitor. In addition to the previously described active site, a second crystallographic site was identified, whose potential biological function, if confirmed, might open new possibilities to modulate LMW-PTP activity, in a perspective which demands further investigation. / Doutorado / Físico-Química / Doutora em Ciências LMW-PTP CDC25B Química farmacêutica Planejamento racional de fármacos Cristalografia de proteínas LMW-PTP CDC25B Pharmaceutical chemistry Rational drug design Protein crystallography
36	Advanced Ethernet Clock Synchronization based on Round Trip Time Protocol Goes, Granville Manvel January 2020 (has links) In this master thesis project, a new protocol called the Round Trip Time (RTT) protocol is implemented and verified. It helps determine the Ethernet clock frequency offset between two communicating nodes. The detection of this offset between nodes is a way to reduce the clock synchronization error. Ethernet is the basis on which a large amount of communication takes place in the world. Either it is used for exchanging data from one device to another or to connect devices to the internet. Due to the absence of clocks being exchanged between the various Ethernet communicating nodes, clock phase and frequency offsets can be present which leads to clock de-synchronization between the various nodes and results in lower system throughput. In the telecommunication industry, synchronization error between base stations can lead to lower throughput, performance degradation and packet loss. Also, with the introduction of 5G, stringent requirements will be placed on the clock synchronization errors.Currently, the Precision Time Protocol (PTP) is used to detect and correct clock synchronization errors. The PTP implementation reduces the clock synchronization error but it is still quite large. Hence, it is necessary to find a protocol which can work together with the PTP protocol to reduce this error. This thesis will introduce a new way to determine the clock frequency offset between nodes through the implementation of the RTT protocol. Through the course of this project, the clock frequency offset was determined by the RTT protocol. By comparing the expected and the theoretical clock offsets, it was concluded that the two values were very similar. The error between the offsets was in the range of 2.349-15.687 parts per billion (ppb) of the link frequency. Thus, the RTT protocol accurately and precisely determined the clock frequency offset between two Ethernet communicating nodes. This protocol is also extended to determine the clock frequency offset between two nodes transmitting periodic signals. For future works, this protocol can be combined with the PTP protocol and a way to determine the clock phase offset will be investigated. / I detta examensarbete implementerades och verifierades ett nytt protokoll, kallat Round Trip Time (RTT)-protokollet, som hjälper till att bestämma Ethernets klockfrekvensförskjutning mellan två kommunicerande noder. Denna fastställda förskjutning mellan de två noderna är ett sätt att reducera klocksynkroniseringsfelet. Ethernet är grunden i en stor del av dagens kommunikation i världen. Antingen används det för informationsutbyte mellan två enheter, eller för att ansluta till internet. Då det saknas ett utbyte av referensklocka mellan de olika kommunikationsnoderna på Ethernet, kan det uppstå klockfasoch frekvensförskjutning som leder till att klockan desynkroniseras mellan de olika noderna och därmed ger ett minskat dataflöde. I telekommunikationsindustrin kan ett synkronisationsfel mellan basstationer leda till minskat dataflöde, sämre prestanda och paketförlust. I och med introduktionen av 5G kommer stränga krav att ställas på klocksynkronisationsfelen.För närvarande används Precision Time Protocol (PTP) för att upptäcka och korrigera klocksynkroniseringsfelen. Implementationen av PTP reducerar klocksynkroniseringsfelet, men det är fortfarande relativt stort. Därav är det nödvändigt att hitta ett protokoll som kan arbeta tillsammans med PTP för att reducera detta fel. Detta arbete kommer att introducera ett nytt sätt att bestämma klockfrekvensförskjutningen genom implementation av RTT-protokollet. I detta arbete bestämdes klockfrekvensförskjutningen av RTT-protokollet. Genom att jämföra det förväntade och faktiska värdet på klockförskjutningen kunde slutsatsen dras att de två värdena var väldigt lika. Felet var i storleksordningen av 2,349-15,687 parts per billion (ppb) i linkfrekvensen. Således bestämmer RTT-protokollet korrekt och exakt klockfrekvensförskjutningen mellan de två kommunikationsnoderna i Ethernet. Protokollet utökas också för att bestämma klockfrekvensförskjutningen mellan två noder som sänder en periodisk signal. För framtida arbete kan detta protokoll kombineras med PTP-protokollet, och det ska även undersökas ett sätt för att bestämma klockfasförskjutningen. Networks Ethernet Clock synchronization Synchronization error Precision Time Protocol (PTP) Round Trip Time (RTT) protocol Nätverk Ehternet Klocksynkronisering Synkroniseringsfel Precision Time Protocol (PTP) Round Trip Time (RTT) protocol Computer and Information Sciences Data- och informationsvetenskap
37	Molecular Regulation of Angiogenesis Mellberg, Sofie January 2008 (has links) Angiogenesis, de novo formation of blood vessels from the pre-existing vasculature, is crucial in embryo development, and in processes in the adult such as wound healing and ovulation. Angiogenesis is also involved in pathological conditions such as cancer and chronic inflammatory diseases, which are propagated by dysregulated, excess angiogenesis. On the other hand, lack of functional vessels and poor blood flow is a major problem in myocardial and peripheral ischemia. A detailed understanding of the molecular mechanisms underlying angiogenesis is of vital importance for the development of drugs to regulate angiogenesis. The aim of this thesis has been to identify genes involved in regulation of angiogenesis. We have investigated gene expression over time in endothelial cells (ECs), using different in vitro models. We show that the proteoglycan endocan is upregulated in ECs invading a fibrin matrix in response to vascular endothelial growth factor (VEGF)-A. There was increased expression of endocan in renal tumour cells and tumour vessels compared to normal renal tissues, indicating that endocan might have a role in tumour growth and tumour angiogenesis. We also show that vascular endothelial protein tyrosine phosphatase (VE-PTP) is induced in ECs during differentiation into vessel structures in a three dimensional collagen matrix. Silencing of VE-PTP disrupts vessel formation and increases the activity of VEGF receptor-2 (VEGFR-2) and downstream signalling, leading to increased EC proliferation. This presents a possible mechanism for the failure of vessel formation, as EC morphogenesis requires growth arrest of the cells. We also show that VE-PTP and VEGFR-2 are closely associated in resting ECs. VEGF-A stimulation leads to rapid loss of association, coinciding with increased phosphorylation of VEGFR-2. The function of VE-PTP in vivo was investigated using the zebrafish model. We demonstrate specific expression of a zebrafish VE-PTP orthologue (zVE-PTP) in the developing vasculature. Silencing of zVE-PTP leads to defective vessel sprouting and branching, indicating a critical role for zVE-PTP in development of the zebrafish vasculature. In conclusion, this thesis presents gene regulation during endothelial cell morphogenesis and details the expression pattern of endocan and the function of VE-PTP in regulation of VEGFR-2-driven angiogenesis. endothelial morphogenesis VEGFR-2 protein tyrosine phosphatase VE-PTP PTPRB endocan ESM-1 angiogenesis Molecular medicine Molekylär medicin
38	Regulation of PDGFRβ signaling Wardęga, Piotr January 2010 (has links) Platelet-derived growth factor (PDGF) isoforms, which bind to closely related a- and b-tyrosine kinase receptors, induce migration, proliferation, survival and differentiation of mesenchymal cells. They signal by the active receptor attracting Src homology 2 (SH2) domain containing proteins, which subsequently initiate a set of signaling pathways. The aim of this thesis was to elucidate regulatory mechanisms involved in PDGFRb signaling. In the first two projects we investigated the roles in downregulation of PDGFRb of two related adaptor proteins, i.e. ALG-2 interacting protein X (Alix) and His-domain containing protein tyrosine phosphatase (HD-PTP) functions of. We found that Alix and HD-PTP influence ubiquitination of PDGFRb following PDGF stimulation, by affecting the E3 ligase c-Cbl. Alix enhances complex formation between c-Cbl and PDGFRb, increases c-Cbl phosphorylation and decreases its stability. Interestingly, while both HD-PTP and Alix participate in degradation of PDGFRb, only Alix affects receptor internalization. Moreover, we demonstrated that absence of HD-PTP promotes cell proliferation. In conclusion, we suggest that both Alix and HD-PTP are important adaptor proteins in regulation of PDGFRb downregulation, although the observed differences between their actions suggest that Alix and HD-PTP exert their functions via different mechanisms. The third study explored the importance of tyrosine residue 857 in the activation loop of PDGFRb. We report that, in vitro the tyrosine residue 857 to phenylalanine (Y857F) mutant receptor kinase activity is diminished while in vivo it does not affect the phosphorylation of PDGFRb. The phosphorylation pattern of PDGFRb revealed that most sites in the Y857F mutant receptor were phosphorylated similarly as in the wild-type receptor. However, tyrosine residue 771 was found to be hyperphosphorylated in the Y857F mutant receptor. This may be due to defective phosphorylation and activation of SHP-2, since it has been shown to dephosphorylate the receptor at Y771. In addition, activation of the Erk1/2 and Akt pathways was defective downstream of the Y857F mutant receptor. Interestingly, the Y857F mutant receptor was able to mediate cell migration, but not proliferation. The last study investigated a role of the tyrosine kinase Fer in PDGF signaling. We showed that Fer interacted with and was activated by PDGFRb in a ligand-dependent manner. In cells depleted of Fer, receptor phosphorylation was decreased and phosphorylation of Stat3 was abolished, whereas Stat5, Erk1/2 and Akt were activated normally. Colony formation in soft agar was abolished in cells depleted of Fer, but no effect was seen on cell proliferation and migration. Since Stat3 has been shown to be involved in transformation, we speculate that phosphorylation of Stat3 in Fer-depleted cells, affects the ability of cells to form colonies. PDGF HD-PTP Alix Cbl Ub Fer Y857 Y771 downregulation degradation ubiquitination activation loop Cell and molecular biology Cell- och molekylärbiologi
39	Statistické vyhodnocení fylogeneze biologických sekvencí / Statistic evaluation of phylogeny of biological sequences Zembol, Filip January 2013 (has links) The topic of my diploma thesis is the statistical evaluation of biological sequences with the help of phylogenic trees. In the theoretical part we will create a literary recherche of estimation methodology concerning the course of phylogeny on the basis of the similarity of biological sequences (DNA and proteins) and we will focus on the inaccuracies of the estimation, their causes and the possibilities of their elimination. Afterwards, we will compare the methods for the statistical evaluation of the correctness of the course of phylogeny. In the practical part of the thesis we will suggest algorithms that will be used for testing the correctness of the phylogenic trees on the basis of bootstrapping, jackknifing, OTU jackknifing and PTP test which are able to the capture phylogenic tree with the method neighbor joining from the biological sequences in FASTA code. It is also possible to change the distance model and the substitution matrix. To be able to use these algorithms for the statistical support of phylogenic trees we have to verify their right function. This verification will be evaluated on the theoretical sequences of the amino acids. For the verification of the correct function of the algorithms, we will carry out single statistical tests on real 10 sequences of mammalian ubiquitin. These results will be analysed and appropriately discussed.
40	Synchronizace času v počítačových sítích / Time Synchronization in Computer Networks Matoušek, Denis January 2014 (has links) The master's thesis deals with design of a solution for time synchronization in computer networks that is a crucial problem of many network applications. Based on analysis of protocols for time synchronization, PTP protocol was chosen as an appropriate candidate. The thesis describes the implementation of the design for a special network interface card and demonstrates features of the solution in several tests. A part of the solution processing precise timestamps was implemented in FPGA chip on the network card while PTP messages are processed in a software application. Values of configurable parameters of the application were determined based on analysis of the network card properties and results of particular tests. It was achieved accuracy in order of tens of nanoseconds.

Search results