Olga N. Matchuk

417 citations
30 papers · 302 indexed · h-index 7
Co-authors
Anna YakimovaAlexander E. KabakovИ. А. ЗамулаеваVladimir L. GabaiZapporah T. YoungHu LiMikel Garcia‐MarcosStuart K. Calderwood
Cited by
AgingCell BiologyMolecular Biology
Partner nations
RussiaSpainUnited States

In The Last Decade

Olga N. Matchuk

25 papers receiving 299 citations

Peers

Olga N. Matchuk
Comparison fields: 5 of 68
  • Aging 7
  • Cell Biology 64
  • Molecular Biology 228
  • Cancer Research 39
  • Oncology 60
Replace Nikolai D. Aksenov with:
Nikolai D. Aksenov Russia
Bhushan Thakur United States
Frank Grollman United States
Le Meng United States
Whitney Salz United States
Shiho Takeuchi Japan
Michelina Festa Italy
Sinéad Lindsay Ireland
Thomas Jackson United Kingdom
M Yoshimura Japan
Olga N. Matchuk relative to Nikolai D. Aksenov Russia Nikolai D. Aksenov's profile →
Citations per field
00.5×
Nikolai D. Aksenov · 1×
Citations per year

Countries citing papers authored by Olga N. Matchuk

Since Specialization
Citations

This map shows the geographic impact of Olga N. Matchuk's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Olga N. Matchuk with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Olga N. Matchuk more than expected).

Fields of papers citing papers by Olga N. Matchuk

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Olga N. Matchuk. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Olga N. Matchuk. The network helps show where Olga N. Matchuk may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Olga N. Matchuk, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Olga N. Matchuk Line = papers co-authored together Olga N. Matchuk links everyone, so they are left out of the graph.

All Works

20 of 20 papers shown
#Work
1
Heterogeneous collagen-containing composition: effect on HeLa cervical cancer cells and assessment of prospects for use in oncological practice
И. А. Замулаева,Olga N. Matchuk,Л. С. Мкртчян,А. Д. Каприн
20240
2
Effects of Fractionated Proton Irradiation in Combination with 1-β-D-Arabinofuranosylcytosine on B16 Murine Melanoma In Vivo
И. А. Замулаева,Olga N. Matchuk,Е. И. Селиванова,V. A. Mosina,Abramova Mr,В. О. Сабуров,S. N. Koryakin,S. A. Ivanov,А. Д. Каприн,A. V. Boreyko,V. N. Chausov,E. A. Krasavin
20240
3
Radiobiological Effects of the Combined Action of 1-β-D-Arabinofuranosylcytosine and Proton Radiation on B16 Melanoma in vivo
И. А. Замулаева,Olga N. Matchuk,Е. И. Селиванова,Anna Yakimova,V. A. Mosina,S. N. Koryakin,А. Д. Каприн,A. V. Boreyko,A. N. Bugay,V. N. Chausov,E. A. Krasavin
20232
4
Effects of Fractionated Radiation Exposure on Vimentin Expression in Cervical Cancers: Analysis of Association with Cancer Stem Cell Response and Short-Term Prognosis
И. А. Замулаева,Olga N. Matchuk,Е. И. Селиванова,Л. С. Мкртчян,Anna Yakimova,V.R. Gusarova,Nikita Lipunov,Liudmila Krikunova,С. А. Иванов,А. Д. Каприн
20233
5
Effects of Combined Action of Neutron and Proton Radiation on the Pool of Breast Cancer Stem Cells and Expression of Stemness Genes In Vitro
Olga N. Matchuk,Anna Yakimova,В. О. Сабуров,S. N. Koryakin,С. А. Иванов,И. А. Замулаева
20222
6
Mesoporous silicon nanoparticles loaded with salinomycin for cancer therapy applications
Mikhail Konoplyannikov,Anna S. Eremina,Yu. V. Kargina,Irina M. Le‐Deygen,Alexander Kharin,T. Yu. Bazylenko,Gaukhar M. Yusubalieva,V. A. Revkova,Olga N. Matchuk,И. А. Замулаева,Abramova Mr,Svetlana Kotova,Peter Timashev,Владимир П. Баклаушев,V. Yu. Timoshenko
20217
7
Correlation of Radiation Response of Cervical Cancer Stem Cells with Their Initial Number before Treatment and Molecular Genetic Features of Papillomavirus Infection
И. А. Замулаева,Е. И. Селиванова,Valentina I. Kiseleva,Olga N. Matchuk,Л. И. Крикунова,L. S. Mkrtchyan,А. Д. Каприн
20204
8
Dimeric bisbenzimidazoles DB(n) in combination with ionizing radiation decrease number and clonogenic activity of MCF-7 breast cancer stem cells
И. А. Замулаева,K. A. Churyukina,Olga N. Matchuk,А. А. Иванов,В. О. Сабуров,А. Л. Жузе
20200
9
Effect of Fractionated Low-LET Radiation Exposure on Cervical Cancer Stem Cells under Experimental and Clinical Conditions
Olga N. Matchuk,И. А. Замулаева,Е. И. Селиванова,L. S. Mkrtchyan,Л. И. Крикунова,В. О. Сабуров,А. А. Лычагин,G. Z. Kuliyeva,Anna Yakimova,A. V. Khokhlova,С. А. Иванов,А. Д. Каприн
20202
10
Quantitative Changes in the Population of Cancer Stem Cells after Radiation Exposure in a Dose of 10 Gy as a Prognostic Marker of Immediate Results of the Treatment of Squamous Cell Cervical Cancer
И. А. Замулаева,Е. И. Селиванова,Olga N. Matchuk,Л. И. Крикунова,L. S. Mkrtchyan,Г. З. Кулиева,А. Д. Каприн
20196
11
Quantitative changes in the stem cell population of cervical cancer cell line HeLa under the influence of fractionated gamma-irradiation in vitro
Olga N. Matchuk,И. А. Замулаева
20194
12
High Level of Radiation-Induced Heat Shock Protein with a Molecular Weight of 27 and 70 kDa is the Hallmark of Radioresistant SP Cells of MCF-7 Breast Cancer Culture.
Olga N. Matchuk,И. А. Замулаева
20162
13
Breast cancer and tumor stem cells. Review
Iva Smirnova,А А Енилеева,Olga N. Matchuk,И. А. Замулаева
20162
14
Cytotoxic effects of the combined action of ionizing radiation and doxorubicin conjugates with dendritic polymer and a vector protein to tumor cells in vitro
И. А. Замулаева,K. A. Churyukina,Olga N. Matchuk,E.D. Nikolskaja,С. А. Макаренко,O. A. Zhunina,И.Г. Кондрашева,Severin Se
20160
15
Changes in the Relative Number of SP Cells of Melanoma Line B16 after Radiation Exposure in vivo.
Olga N. Matchuk,Nina V. Orlova,И. А. Замулаева
20166
16
[Influence of systemic photodynamic therapy on circulating tumor cells in peripheral blood of cancer patients].
И. А. Замулаева,Kaplan Ma,Tkachenko Np,Selivanova Ei,Makarenko Sa,Olga N. Matchuk,Shubina Am,Goranskaia Ev,Saenko As
20151
17
[Increase in the number of cancer stem cells after exposure to low-LET radiation].
И. А. Замулаева,Olga N. Matchuk,Selivanova Ei,Andreev Vg,Lipunov Nm,Makarenko Sa,Zhavoronkov Lp,Saenko As
20155
18
Hsp70–Bag3 Interactions Regulate Cancer-Related Signaling Networks
Teresa A. Colvin,Vladimir L. Gabai,Jianlin Gong,Stuart K. Calderwood,Hu Li,Suryaram Gummuluru,Olga N. Matchuk,Svetlana G. Smirnova,Nina V. Orlova,И. А. Замулаева,Mikel Garcia‐Marcos,Xiaokai Li,Zapporah T. Young,Jennifer N. Rauch,Jason E. Gestwicki,Shinichi Takayama,Michael Y. Sherman
2014137
19
Влияние системной фотодинамической терапии на опухолевые клетки, циркулирующие в периферической крови онкологических больных
И. А. Замулаева,М. А. Каплан,Natália Tkachenko,Е. И. Селиванова,С. А. Макаренко,Olga N. Matchuk,А. М. Шубина,Е. В. Горанская,А.С. Саенко
20131
20
Radioresistance mechanisms of side population cells in mouse melanoma cell line B16
Olga N. Matchuk,И. А. Замулаева,O. A. Kovalev,А.С. Саенко
20137

About Olga N. Matchuk

Olga N. Matchuk is a scholar working on Aging, Oncology and Cancer Research, having authored 30 papers that have together received 302 indexed citations. Recurring topics across this work include Cancer Cells and Metastasis (13 papers), Cervical Cancer and HPV Research (3 papers), RNA Interference and Gene Delivery (3 papers), Cancer-related Molecular Pathways (3 papers), Effects of Radiation Exposure (3 papers), Heat shock proteins research (3 papers), DNA Repair Mechanisms (2 papers) and Cancer Research and Treatments (2 papers). The work is most often cited by research in Aging (7 citations), Cell Biology (64 citations) and Molecular Biology (228 citations). Olga N. Matchuk has collaborated with scholars based in Russia, Spain and United States. Frequent co-authors include Anna Yakimova, Alexander E. Kabakov, И. А. Замулаева, Vladimir L. Gabai, Zapporah T. Young, Hu Li, Mikel Garcia‐Marcos, Stuart K. Calderwood, Teresa A. Colvin and Shinichi Takayama.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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