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34 results on '"Dvorak, Vojtech"'

1. The Maker-Breaker percolation game on a random board

Author

Dvořák, Vojtěch, Mond, Adva, and Souza, Victor

Subjects
Mathematics - Probability, Mathematics - Combinatorics
Abstract

The $(m,b)$ Maker-Breaker percolation game on $(\mathbb{Z}^2)_p$, introduced by Day and Falgas-Ravry, is played in the following way. Before the game starts, each edge of $\mathbb{Z}^2$ is removed independently with probability $1-p$. After that, Maker chooses a vertex $v_0$ to protect. Then, in each round Maker and Breaker claim respectively $m$ and $b$ unclaimed edges of $G$. Breaker wins if after the removal of the edges claimed by him the component of $v_0$ becomes finite, and Maker wins if she can indefinitely prevent Breaker from winning. We show that for any $p < 1$, Breaker almost surely has a wining strategy for the $(1,1)$ game on $(\mathbb{Z}^2)_p$. This fully answers a question of Day and Falgas-Ravry, who showed that for $p = 1$ Maker has a winning strategy for the $(1,1)$ game. Further, we show that in the $(2,1)$ game on $(\mathbb{Z}^2)_p$ Maker almost surely has a winning strategy whenever $p > 0.9402$, while Breaker almost surely has a winning strategy whenever $p < 0.5278$. This shows that the threshold value of $p$ above which Maker has a winning strategy for the $(2,1)$ game on $\mathbb{Z}^2$ is non-trivial. In fact, we prove similar results in various settings, including other lattices and biases $(m,b)$. These results extend also to the most general case, which we introduce, where each edge is given to Maker with probability $\alpha$ and to Breaker with probability $\beta$ before the game starts., Comment: 34 pages, 6 figures

Published
2024

2. Waiter-Client Clique-Factor Game

Author

Dvořák, Vojtěch

Subjects
Mathematics - Combinatorics, 05C57
Abstract

Fix two integers $n, k$, with $n$ divisible by $k$, and consider the following game played by two players, Waiter and Client, on the edges of $K_n$. Starting with all the edges marked as unclaimed, in each round, Waiter picks two yet unclaimed edges. Client then chooses one of these edges to be added to Client's graph, while the other edge is added to Waiter's graph. Waiter wins if she eventually forces Client to create a $K_k$-factor in Client's graph. If she does not manage to do that, Client wins. For fixed $k$ and large enough $n$, it can be easily shown that Waiter wins if she plays optimally (in particular, this is an immediate consequence of our result that for such $n$, Waiter can win quite fast). The question posed by Clemens et al. is how long the game will last if Waiter aims to win as fast as she can, Client tries to delay her as much as he can, and they both play optimally. We denote this optimal number of rounds by $\tau_{WC}(\mathcal{F}_{n,K_k-\text{fac}},1 ) $. In the present paper, we obtain the first non-trivial lower bound on this quantity for large $k$. Together with a simple upper bound following the strategy of Clemens et al., this gives $2^{k/3-o(k)}n \leq \tau_{WC}(\mathcal{F}_{n,K_k-\text{fac}},1 ) \leq 2^k\frac{n}{k}+C(k)$, where $C(k)$ is a constant dependent only on $k$ and the $o(k)$ term is independent of $n$ as well., Comment: 13 pages

Published
2022

3. A New Upper Bound for the Ramsey Number of Fans

Author

Dvořák, Vojtěch and Metrebian, Harry

Subjects
Mathematics - Combinatorics, 05C55
Abstract

A fan $F_n$ is a graph consisting of $n$ triangles, all having precisely one common vertex. Currently, the best known bounds for the Ramsey number $R(F_n)$ are $9n/2-5 \leq R(F_n) \leq 11n/2+6$, obtained by Chen, Yu and Zhao. We improve the upper bound to $31n/6+O(1)$., Comment: 12 pages

Published
2021

5. Games on graphs and other combinatorial problems

Author

Dvorak, Vojtech and Bollobas, Bela

Subjects
combinatorial games, graph theory, Rademacher sums
Abstract

In this dissertation, we consider various combinatorial problems. The four chapters after the Introduction concern games on graphs, while latter on, we make progress on some questions in the settings of Rademacher sums and graph theory. In Chapter 2, we study the (m,b) Maker-Breaker percolation game. This game, played by two players on the square lattice, was introduced by Day and Falgas-Ravry. The outcome of this game depends crucially on the parameters m and b. Day and Falgas-Ravry showed that Breaker wins whenever b≥2m, but their approach then faces a barrier. We introduce a new, more global approach to study this game and to improve their results: we show that Breaker can in fact guarantee victory whenever b≥(2-1/14+o(1))m. We also show that Breaker can win very fast in a different variant of this game as long as b≥2m. In Chapters 3 and 4, we look at the Waiter-Client Kk-factor game, first studied by Clemens et al. Here, it is known that Waiter wins, and the question is how long the game will last if Waiter aims to win as fast as possible, Client tries to delay her as much as possible, and both players play optimally. In Chapter 3, we determine the duration of the game under the optimal play of both players when k = 3, resolving the conjecture of Clemens et al. After that, we study the game for large k in Chapter 4, and obtain the first known non-trivial lower bound for its duration in this case. In Chapter 5, we consider the so-called restricted online Ramsey numbers, which correspond to a certain colouring game in the Builder-Painter setup. We provide a tight lower bound for the restricted online Ramsey numbers of matchings as long as the number of the allowed colours is small, resolving the conjecture of Briggs and Cox. The setting in the next two chapters is the following. Set X = Σ n_i=1 a_iε_i , where ε_i are Rademacher random variables, i.e. independent, identically distributed random variables taking values ±1 with probabilities 1/2 each, and {a_i} are arbitary real numbers. In Chapter 6, we make progress towards an old conjecture of Tomaszewski, which concerns concentration of such random variables X. In Chapter 7, we study the reverse problem and build up a framework that allows us to show anti-concentration results for Rademacher sums, and in turn we significantly improve the known results in this setting.

Published
2022
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6. The Maker-Breaker percolation game on the square lattice

Author

Dvořák, Vojtěch, Mond, Adva, and Souza, Victor

Subjects
Mathematics - Combinatorics
Abstract

We study the $(m,b)$ Maker-Breaker percolation game on $\mathbb{Z}^2$, introduced by Day and Falgas-Ravry. As our first result, we show that Breaker has a winning strategy for the $(m,b)$-game whenever $b \geq (2-\frac{1}{14} + o(1))m$, breaking the ratio $2$ barrier proved by Day and Falgas-Ravry. Addressing further questions of Day and Falgas-Ravry, we show that Breaker can win the $(m,2m)$-game even if he allows Maker to claim $c$ edges before the game starts, for any integer $c$, and that he can moreover win rather fast (as a function of $c$). Finally, we consider the game played on $\mathbb{Z}^2$ after the usual bond percolation process with parameter $p$ was performed. We show that when $p$ is not too much larger than $1/2$, Breaker almost surely has a winning strategy for the $(1,1)$-game, even if Maker is allowed to choose the origin after the board is determined., Comment: 28 pages, 6 figures

Published
2021

7. Probability Mass of Rademacher Sums Beyond One Standard Deviation

Author

Dvořák, Vojtěch and Klein, Ohad

Subjects
Mathematics - Combinatorics, Mathematics - Probability, 05D40, 05A20, 60C05
Abstract

Let $a_1, \dots, a_n \in \mathbb{R}$ satisfy $\sum_i a_i^2 = 1$, and let $\varepsilon_1, \ldots, \varepsilon_n$ be uniformly random $\pm 1$ signs and $X = \sum_{i=1}^{n} a_i \varepsilon_i$. It is conjectured that $X = \sum_{i=1}^{n} a_i \varepsilon_i$ has $\Pr[X \geq 1] \geq 7/64$. The best lower bound so far is $1/20$, due to Oleszkiewicz. In this paper we improve this to $\Pr[X \geq 1] \geq 6/64$., Comment: 43 pages; minor changes

Published
2021

8. Waiter-Client Triangle-Factor Game on the Edges of the Complete Graph

Author

Dvořák, Vojtěch

Subjects
Mathematics - Combinatorics, 05C57
Abstract

Consider the following game played by two players, called Waiter and Client, on the edges of $K_n$ (where $n$ is divisible by $3$). Initially, all the edges are unclaimed. In each round, Waiter picks two yet unclaimed edges. Client then chooses one of these two edges to be added to Waiter's graph and one to be added to Client's graph. Waiter wins if she forces Client to create a $K_3$-factor in Client's graph at some point, while if she does not manage to do that, Client wins. It is not difficult to see that for large enough $n$, Waiter has a winning strategy. The question considered by Clemens et al. is how long the game will last if Waiter aims to win as soon as possible, Client aims to delay her as much as possible, and both players play optimally. Denote this optimal number of rounds by $\tau_{WC}(\mathcal{F}_{n,K_3-\text{fac}},1 ) $. Clemens et al. proved that $\frac{13}{12}n \leq \tau_{WC}(\mathcal{F}_{n,K_3-\text{fac}},1 ) \leq \frac{7}{6}n+o(n) $, and conjectured that $\tau_{WC}(\mathcal{F}_{n,K_3-\text{fac}},1 ) = \frac{7}{6}n+o(n) $. In this note, we verify their conjecture., Comment: 9 pages

Published
2021

9. A Note on Restricted Online Ramsey Numbers of Matchings

Author

Dvořák, Vojtěch

Subjects
Mathematics - Combinatorics, 05C57
Abstract

The restricted online Ramsey numbers were introduced by Conlon, Fox, Grinshpun and He in 2019. In a recent paper, Briggs and Cox studied the restricted online Ramsey numbers of matchings and determined a general upper bound for them. They proved that for $n=3r-1=R_2(r K_2)$ we have $\tilde{R}_{2}(r K_2;n) \leq n-1$ and asked whether this was tight. In this short note, we provide a general lower bound for these Ramsey numbers. As a corollary, we answer this question of Briggs and Cox, and confirm that for $n=3r-1$ we have $\tilde{R}_{2}(r K_2;n) = n-1$. We also show that for $n'=4r-2=R_3(r K_2)$ we have $\tilde{R}_{3}(r K_2;n') = 5r-4$., Comment: 3 pages

Published
2020

10. Radius, Girth and Minimum Degree

Author

Dvořák, Vojtěch, van Hintum, Peter, Shaw, Amy, and Tiba, Marius

Subjects
Mathematics - Combinatorics, 05C35, 05C07, G.2.2
Abstract

Given a connected graph $G$ on $n$ vertices, with minimum degree $\delta\geq 2$ and girth at least $g \geq 4$, what is the maximum radius $r$ this graph can have? Erd\H{o}s, Pach, Pollack and Tuza established in the triangle-free case ($g=4$) that $r \leq \frac{n-2}{\delta}+12$, and noted that up to the value of the additive constant, this is tight. We determine the exact value for the triangle-free case. For higher $g$ little is known. We settle the order of $r$ for $g=6,8,12$ and prove an upper bound to the order for general even $g$. Finally, we show that proving the corresponding lower bound for general even $g$ is equivalent to the Erd\H{o}s girth conjecture., Comment: 11 pages

Published
2020

11. Improved Bound for Tomaszewski's Problem

Author

Dvořák, Vojtěch, van Hintum, Peter, and Tiba, Marius

Subjects
Mathematics - Combinatorics, Mathematics - Probability, 05A20 (Primary) 60C05 (Secondary)
Abstract

In 1986, Tomaszewski made the following conjecture. Given $n$ real numbers $a_{1},...,a_{n}$ with $\sum_{i=1}^{n}a_{i}^{2}=1$, then of the $2^{n}$ signed sums $\pm a_{1} \pm ... \pm a_{n}$, at least half have absolute value at most $1$. Hendriks and Van Zuijlen (2020) and Boppana (2020) independently proved that a proportion of at least $0.4276$ of these sums has absolute value at most $1$. Using different techniques, we improve this bound to $0.46$., Comment: 12 pages

Published
2020

12. $P_{n}$-induced-saturated graphs exist for all $n \geq 6$

Author

Dvořák, Vojtěch

Subjects
Mathematics - Combinatorics, 05C75
Abstract

Let $P_{n}$ be a path graph on $n$ vertices. We say that a graph $G$ is $P_{n}$-induced-saturated if $G$ contains no induced copy of $P_{n}$, but deleting any edge of $G$ as well as adding to $G$ any edge of $G^{c}$ creates such a copy. Martin and Smith (2012) showed that there is no $P_{4}$-induced-saturated graph. On the other hand, there trivially exist $P_{n}$-induced-saturated graphs for $n=2,3$. Axenovich and Csik\'{o}s (2019) ask for which integers $n \geq 5$ do there exist $P_{n}$-induced-saturated graphs. R\"{a}ty (2019) constructed such a graph for $n=6$, and Cho, Choi and Park (2019) later constructed such graphs for all $n=3k$ for $k \geq 2$. We show by a different construction that $P_{n}$-induced-saturated graphs exist for all $n \geq 6$, leaving only the case $n=5$ open., Comment: 5 pages, 2 figures; added note about the case n=5 being solved in previously unpublished work of different authors

Published
2020

13. The Eternal Game Chromatic Number of Random Graphs

Author

Dvořák, Vojtěch, Herrman, Rebekah, and van Hintum, Peter

Subjects
Mathematics - Combinatorics, 05C15, 05C57, 05C80
Abstract

The eternal graph colouring problem, recently introduced by Klostermeyer and Mendoza, is a version of the graph colouring game, where two players take turns properly colouring a graph. In this note, we study the eternal game chromatic number of random graphs. We show that with high probability $\chi_{g}^{\infty}(G_{n,p}) = (\frac{p}{2} + o(1))n$ for odd $n$, and also for even $n$ when $p=\frac{1}{k}$ for some $k \in \mathbb{N}$. The upper bound applies for even $n$ and any other value of $p$ as well, but we conjecture in this case this upper bound is not sharp. Finally, we answer a question posed by Klostermeyer and Mendoza., Comment: 16 pages

Published
2020

14. A Note on Norine's Antipodal-Colouring Conjecture

Author

Dvořák, Vojtěch

Subjects
Mathematics - Combinatorics, 05C35, 05C38
Abstract

Norine's antipodal-colouring conjecture, in a form given by Feder and Subi, asserts that whenever the edges of the discrete cube are 2-coloured there must exist a path between two opposite vertices along which there is at most one colour change. The best bound to date was that there must exist such a path with at most $n/2$ colour changes. Our aim in this note is to improve this upper bound to $(\frac{3}{8}+o(1))n$., Comment: 5 pages, no figures

Published
2019

18. Advancing drug discovery through assay development: a survey of tool compounds within the human solute carrier superfamily.

Author

Digles, Daniela, Ingles-Prieto, Alvaro, Dvorak, Vojtech, Mocking, Tamara A. M., Goldmann, Ulrich, Garofoli, Andrea, Homan, Evert J., Di Silvio, Alberto, Azzollini, Lucia, Sassone, Francesca, Fogazza, Mario, Bärenz, Felix, Pommereau, Antje, Zuschlag, Yasmin, Ooms, Jasper F., Tranberg-Jensen, Jeppe, Hansen, Jesper S., Stanka, Josefina, Sijben, Hubert J., and Batoulis, Helena

Subjects
DRUG discovery, HIGH throughput screening (Drug development), WEB portals, SMALL molecules, DRUG development, TRACKING radar
Abstract

With over 450 genes, solute carriers (SLCs) constitute the largest transporter superfamily responsible for the uptake and efflux of nutrients, metabolites, and xenobiotics in human cells. SLCs are associated with a wide variety of human diseases, including cancer, diabetes, and metabolic and neurological disorders. They represent an important therapeutic target class that remains only partly exploited as therapeutics that target SLCs are scarce. Additionally, many small molecules reported in the literature to target SLCs are poorly characterized. Both features may be due to the difficulty of developing SLC transport assays that fulfill the quality criteria for high-throughput screening. Here, we report one of the main limitations hampering assay development within the RESOLUTE consortium: the lack of a resource providing high-quality information on SLC tool compounds. To address this, we provide a systematic annotation of tool compounds targeting SLCs. We first provide an overview on RESOLUTE assays. Next, we present a list of SLC-targeting compounds collected from the literature and public databases; we found that most data sources lacked specificity data. Finally, we report on experimental tests of 19 selected compounds against a panel of 13 SLCs from seven different families. Except for a few inhibitors, which were active on unrelated SLCs, the tested inhibitors demonstrated high selectivity for their reported targets. To make this knowledge easily accessible to the scientific community, we created an interactive dashboard displaying the collected data in the RESOLUTE web portal (https://re-solute.eu). We anticipate that our openaccess resources on assays and compounds will support the development of future drug discovery campaigns for SLCs. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Paralog-dependent isogenic cell assay cascade generates highly selective SLC16A3 inhibitors

Author

Dvorak, Vojtech, primary, Casiraghi, Andrea, additional, Colas, Claire, additional, Koren, Anna, additional, Tomek, Tatjana, additional, Offensperger, Fabian, additional, Rukavina, Andrea, additional, Tin, Gary, additional, Hahn, Elisa, additional, Dobner, Sarah, additional, Frommelt, Fabian, additional, Boeszoermenyi, Andras, additional, Bernada, Viktoriia, additional, Hannich, J. Thomas, additional, Ecker, Gerhard F., additional, Winter, Georg E., additional, Kubicek, Stefan, additional, and Superti-Furga, Giulio, additional

Published
2023
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26. An Overview of Cell-Based Assay Platforms for the Solute Carrier Family of Transporters

Author

Dvorak, Vojtech, primary, Wiedmer, Tabea, additional, Ingles-Prieto, Alvaro, additional, Altermatt, Patrick, additional, Batoulis, Helena, additional, Bärenz, Felix, additional, Bender, Eckhard, additional, Digles, Daniela, additional, Dürrenberger, Franz, additional, Heitman, Laura H., additional, IJzerman, Adriaan P., additional, Kell, Douglas B., additional, Kickinger, Stefanie, additional, Körzö, Daniel, additional, Leippe, Philipp, additional, Licher, Thomas, additional, Manolova, Vania, additional, Rizzetto, Riccardo, additional, Sassone, Francesca, additional, Scarabottolo, Lia, additional, Schlessinger, Avner, additional, Schneider, Vanessa, additional, Sijben, Hubert J., additional, Steck, Anna-Lena, additional, Sundström, Hanna, additional, Tremolada, Sara, additional, Wilhelm, Maria, additional, Wright Muelas, Marina, additional, Zindel, Diana, additional, Steppan, Claire M., additional, and Superti-Furga, Giulio, additional

Published
2021
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27. An Overview of Cell-Based Assay Platforms for the Solute Carrier Family of Transporters

Author

Dvorak, Vojtech, Wiedmer, Tabea, Ingles-Prieto, Alvaro, Altermatt, Patrick, Batoulis, Helena, Bärenz, Felix, Bender, Eckhard, Digles, Daniela, Dürrenberger, Franz, Heitman, Laura H., IJzerman, Adriaan P., Kell, Douglas B., Kickinger, Stefanie, Körzö, Daniel, Leippe, Philipp, Licher, Thomas, Manolova, Vania, Rizzetto, Riccardo, Sassone, Francesca, Scarabottolo, Lia, Schlessinger, Avner, Schneider, Vanessa, Sijben, Hubert J., Steck, Anna Lena, Sundström, Hanna, Tremolada, Sara, Wilhelm, Maria, Wright Muelas, Marina, Zindel, Diana, Steppan, Claire M., Superti-Furga, Giulio, Dvorak, Vojtech, Wiedmer, Tabea, Ingles-Prieto, Alvaro, Altermatt, Patrick, Batoulis, Helena, Bärenz, Felix, Bender, Eckhard, Digles, Daniela, Dürrenberger, Franz, Heitman, Laura H., IJzerman, Adriaan P., Kell, Douglas B., Kickinger, Stefanie, Körzö, Daniel, Leippe, Philipp, Licher, Thomas, Manolova, Vania, Rizzetto, Riccardo, Sassone, Francesca, Scarabottolo, Lia, Schlessinger, Avner, Schneider, Vanessa, Sijben, Hubert J., Steck, Anna Lena, Sundström, Hanna, Tremolada, Sara, Wilhelm, Maria, Wright Muelas, Marina, Zindel, Diana, Steppan, Claire M., and Superti-Furga, Giulio

Abstract

The solute carrier (SLC) superfamily represents the biggest family of transporters with important roles in health and disease. Despite being attractive and druggable targets, the majority of SLCs remains understudied. One major hurdle in research on SLCs is the lack of tools, such as cell-based assays to investigate their biological role and for drug discovery. Another challenge is the disperse and anecdotal information on assay strategies that are suitable for SLCs. This review provides a comprehensive overview of state-of-the-art cellular assay technologies for SLC research and discusses relevant SLC characteristics enabling the choice of an optimal assay technology. The Innovative Medicines Initiative consortium RESOLUTE intends to accelerate research on SLCs by providing the scientific community with high-quality reagents, assay technologies and data sets, and to ultimately unlock SLCs for drug discovery.

Published
2021

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