Models: Difference between revisions

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Articles featured by executable codes (implemented in Matlab and/or BioNetGen):
Articles featured by executable codes (usually implemented in Matlab and/or BioNetGen):
 
===Innate immunity===
 
* <span class="pmbm">Korwek&nbsp;Z</span>, <span class="pmbm">Czerkies&nbsp;M</span>, <span class="pmbm">Jaruszewicz-Błońska&nbsp;J</span>, <span class="pmbm">Prus&nbsp;W</span>, <span class="pmbm">Kosiuk&nbsp;I</span>, <span class="pmbm">Kochańczyk&nbsp;M</span>, <span class="pmbm">Lipniacki&nbsp;T</span>. '''Nonself RNA rewires IFN-β signaling: A mathematical model of the innate immune response''', ''Science&nbsp;Signaling'' <u>16</u>(815):eabq1173 (2023) [https://pubmed.ncbi.nlm.nih.gov/38085817 PubMed] [https://doi.org/10.1126/scisignal.abq1173 CrossRef] | [{{SERVER}}/publications/Korwek-2023-SciSignal.pdf FullText] [https://doi.org/10.1101/2022.01.30.478391 bioRxiv]
 
* <span class="pmbm">Grabowski&nbsp;F</span>, <span class="pmbm">Kochańczyk&nbsp;M</span>, <span class="pmbm">Korwek&nbsp;Z</span>, <span class="pmbm">Czerkies&nbsp;M</span>, <span class="pmbm">Prus&nbsp;W</span>, <span class="pmbm">Lipniacki&nbsp;T</span>. '''Antagonism between viral infection and innate immunity at the single-cell level''', ''PLOS&nbsp;Pathogens'' <u>19</u>(9):e1011597 (2023) [https://pubmed.ncbi.nlm.nih.gov/37669278 PubMed] [https://doi.org/10.1371/journal.ppat.1011597 CrossRef] | [https://doi.org/10.1101/2022.11.18.517110 bioRxiv] [https://github.com/grfrederic/visavis Code] [https://doi.org/10.5281/zenodo.7428925 Data]
 
* <span class="pmbm">Czerkies M</span>, <span class="pmbm">Korwek Z</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Jaruszewicz-Błońska J</span>, <span class="pmbm">Tudelska K</span>, <span class="pmbm">Błoński S</span>, <span class="nopmbm">Kimmel M</span>, <span class="nopmbm">Brasier AR</span>, <span class="pmbm">Lipniacki T</span>. '''Cell fate in antiviral response arises in the crosstalk of IRF, NF-κB and JAK/STAT pathways''', ''Nature Communications'' <u>9</u>:493 (2018) [http://www.ncbi.nlm.nih.gov/pubmed/29402958 PubMed] [http://dx.doi.org/10.1038/s41467-017-02640-8 CrossRef] | [http://pmbm.ippt.pan.pl/publications/Czerkies-2018-NatCommun.pdf PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-SuppInfo.pdf SuppInfo-PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-AllSuppData.zip SuppData] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-AllMovies.zip SuppMovies] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-ModelCode.zip SuppCode]




===NF-κB network===
===NF-κB network===


* <span class="pmbm">Czerkies M</span>, <span class="pmbm">Korwek Z</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Jaruszewicz-Błońska J</span>, <span class="pmbm">Tudelska K</span>, <span class="pmbm">Błoński S</span>, <span class="nopmbm">Kimmel M</span>, <span class="nopmbm">Brasier AR</span>, <span class="pmbm">Lipniacki T</span>. '''Cell fate in antiviral response arises in the crosstalk of IRF, NF-κB and JAK/STAT pathways''', ''Nature Communications'' <u>9</u>:493 (2018) [http://www.ncbi.nlm.nih.gov/pubmed/29402958 PubMed] [http://dx.doi.org/10.1038/s41467-017-02640-8 CrossRef] | [http://pmbm.ippt.pan.pl/publications/Czerkies-2018-NatCommun.pdf PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-SuppInfo.pdf SuppInfo-PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-AllSuppData.zip SuppData] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-AllMovies.zip SuppMovies] [http://pmbm.ippt.pan.pl/publications/supplementary/Czerkies-2018-NatCommun-ModelCode.zip SuppCode]
* <span class="pmbm">Jaruszewicz-Błońska&nbsp;J</span>, <span class="pmbm">Kosiuk&nbsp;I</span>, <span class="pmbm">Prus&nbsp;W</span>, <span class="pmbm">Lipniacki&nbsp;T</span>. '''A plausible identifiable model of the canonical NF-κB signaling pathway''', ''PLOS One'' <u>8</u>(6):e0286416 (2023) [https://pubmed.ncbi.nlm.nih.gov/37267242 PubMed] [https://doi.org/10.1371/journal.pone.0286416 CrossRef] [https://doi.org/10.1101/2022.06.09.495460 bioRxiv]


* <span class="pmbm">Tudelska K</span>, <span class="pmbm">Markiewicz J</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Czerkies M</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Korwek Z</span>, <span class="nopmbm">Abdi A</span>, <span class="pmbm">Błoński&nbsp;S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Information processing in the NF-κB pathway''', ''Scientific&nbsp;Reports'' <u>7</u>:15926 (2017) [http://www.ncbi.nlm.nih.gov/pubmed/29162874 PubMed] [http://doi.org/10.1038/s41598-017-16166-y CrossRef] | [http://www.nature.com/articles/s41598-017-16166-y.pdf PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppInfo.pdf SuppInfo-PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset1.zip SuppCode-BNGL] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset2.zip SuppCode-Py]
* <span class="pmbm">Tudelska K</span>, <span class="pmbm">Markiewicz J</span>, <span class="pmbm">Kochańczyk M</span>, <span class="pmbm">Czerkies M</span>, <span class="pmbm">Prus W</span>, <span class="pmbm">Korwek Z</span>, <span class="nopmbm">Abdi A</span>, <span class="pmbm">Błoński&nbsp;S</span>, <span class="pmbm">Kaźmierczak B</span>, <span class="pmbm">Lipniacki T</span>. '''Information processing in the NF-κB pathway''', ''Scientific&nbsp;Reports'' <u>7</u>:15926 (2017) [http://www.ncbi.nlm.nih.gov/pubmed/29162874 PubMed] [http://doi.org/10.1038/s41598-017-16166-y CrossRef] | [http://www.nature.com/articles/s41598-017-16166-y.pdf PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppInfo.pdf SuppInfo-PDF] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset1.zip SuppCode-BNGL] [http://pmbm.ippt.pan.pl/publications/supplementary/Tudelska-2017-SciRep-SuppDataset2.zip SuppCode-Py]
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===Autophagy===
===Autophagy===


* <span class="pmbm">Szymańska P</span>,  <span class="nopmbm">Martin KR</span>, <span class="nopmbm">MacKeigan JP</span>,  <span class="nopmbm">Hlavacek WS</span>, <span class="pmbm">Lipniacki T</span>. '''Computational analysis of an autophagy/translation switch based on mutual inhibition of mTORC1 and ULK1''', ''PLOS One'' <u>10</u>(3):e0116550 (2015) [http://www.ncbi.nlm.nih.gov/pubmed/25761126 PubMed] [http://dx.doi.org/10.1371/journal.pone.0116550 CrossRef] | [{{SERVER}}/publications/Szymanska-2015-PLOSOne.pdf PDF] [{{SERVER}}/publications/supplementary/Szymanska-2015-PLOSOne-SuppFileS1.bngl.txt supp-BNGL] [{{SERVER}}/publications/supplementary/Szymanska-2015-PLOSOne-SuppFileS2.pdf supp-PDF]
* <span class="pmbm">Szymańska P</span>,  <span class="nopmbm">Martin KR</span>, <span class="nopmbm">MacKeigan JP</span>,  <span class="nopmbm">Hlavacek WS</span>, <span class="pmbm">Lipniacki T</span>. '''Computational analysis of an autophagy/translation switch based on mutual inhibition of mTORC1 and ULK1''', ''PLOS&nbsp;One'' <u>10</u>(3):e0116550 (2015) [http://www.ncbi.nlm.nih.gov/pubmed/25761126 PubMed] [http://dx.doi.org/10.1371/journal.pone.0116550 CrossRef] | [{{SERVER}}/publications/Szymanska-2015-PLOSOne.pdf PDF] [{{SERVER}}/publications/supplementary/Szymanska-2015-PLOSOne-SuppFileS1.bngl.txt supp-BNGL] [{{SERVER}}/publications/supplementary/Szymanska-2015-PLOSOne-SuppFileS2.pdf supp-PDF]
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Latest revision as of 12:58, 24 December 2023

Articles featured by executable codes (usually implemented in Matlab and/or BioNetGen):

Innate immunity

  • Korwek Z, Czerkies M, Jaruszewicz-Błońska J, Prus W, Kosiuk I, Kochańczyk M, Lipniacki T. Nonself RNA rewires IFN-β signaling: A mathematical model of the innate immune response, Science Signaling 16(815):eabq1173 (2023) PubMed CrossRef | FullText bioRxiv
  • Grabowski F, Kochańczyk M, Korwek Z, Czerkies M, Prus W, Lipniacki T. Antagonism between viral infection and innate immunity at the single-cell level, PLOS Pathogens 19(9):e1011597 (2023) PubMed CrossRef | bioRxiv Code Data
  • Czerkies M, Korwek Z, Prus W, Kochańczyk M, Jaruszewicz-Błońska J, Tudelska K, Błoński S, Kimmel M, Brasier AR, Lipniacki T. Cell fate in antiviral response arises in the crosstalk of IRF, NF-κB and JAK/STAT pathways, Nature Communications 9:493 (2018) PubMed CrossRef | PDF SuppInfo-PDF SuppData SuppMovies SuppCode


NF-κB network

  • Jaruszewicz-Błońska J, Kosiuk I, Prus W, Lipniacki T. A plausible identifiable model of the canonical NF-κB signaling pathway, PLOS One 8(6):e0286416 (2023) PubMed CrossRef bioRxiv
  • Tay S, Hughey J, Lee T, Lipniacki T, Covert M, Quake S. Single-cell NF-κB dynamics reveal digital activation and analogue information processing, Nature 466:267-271 (2010) PubMed CrossRef | PDF Code


Early immune response: TCR, BCR

  • Barua D, Hlavacek WS, Lipniacki T. A computational model for early events in B cell antigen receptor signaling: analysis of the roles of Lyn and Fyn, Journal of Immunology 189:646-658 (2012) PubMed CrossRef | Code-BioNetGen
  • Lipniacki T, Paszek P, Brasier AR, Luxon B, Kimmel M. Stochastic regulation in early immune response, Biophysical Journal 90:725-742 (2006) PubMed CrossRef | PDF Code


p53 network

  • Hat B, Kochańczyk M, Bogdał M, Lipniacki T. Feedbacks, bifurcations, and cell fate decision-making in the p53 system, PLOS Computational Biology 12(2):e1004787 (2016) PubMed CrossRef | PDF SuppText SuppFigs SuppCode
  • Bogdał MN, Hat B, Kochańczyk M, Lipniacki T. Levels of pro-apoptotic regulator Bad and anti-apoptotic regulator Bcl-xL determine the type of the apoptotic logic gate, BMC Systems Biology 7:67 (2013) PubMed CrossRef | PDF Code-Matlab
  • Puszyński K, Bertolusso R, Lipniacki T. Crosstalk between p53 and NF-κB systems: pro- and anti-apoptotic functions of NF-κB, IET Systems Biology 3(5):356-367 (2009) PubMed CrossRef | PDF-ms Code
  • Puszyński K, Hat B, Lipniacki T. Oscillations and bistability in the stochastic model of p53, Journal of Theoretical Biology 254(2):452-465 (2008) PubMed CrossRef | Code


MAPK signaling

  • Varga A, Ehrenreiter K, Aschenbrenner B, Kocieniewski P, Kochanczyk M, Lipniacki T, Baccarini M. RAF1/BRAF dimerization integrates the signal from RAS to ERK and ROKα, Science Signaling 10(469):eaai8482 (2017) PubMed CrossRef | SuppCode-BioNetGen
  • Kocieniewski P, Lipniacki T. MEK1 and MEK2 differentially control the duration and amplitude of the ERK cascade response, Physical Biology 10(3):035006 (2013) PubMed CrossRef | PDF-ms Code-BioNetGen


Autophagy

  • Szymańska P, Martin KR, MacKeigan JP, Hlavacek WS, Lipniacki T. Computational analysis of an autophagy/translation switch based on mutual inhibition of mTORC1 and ULK1, PLOS One 10(3):e0116550 (2015) PubMed CrossRef | PDF supp-BNGL supp-PDF



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