M. A. Avdonina scite author profile

MLL is involved in fusion genes with more than 100 partner genes, approximately 80 of which have been characterized at the molecular level. MLL fusion genes are often found in infants (60-80% of acute lymphoblastic leukemia (ALL) cases and 40-50% of acute myeloblastic leukemia (AML) cases) and are appreciably rarer (8-10%) in children older than 1 year of age. MLL rearrangements are important markers in diagnosis and treatment choice. To identify the partner gene is of primary importance for prognosis and minimal residual disease monitoring. The structure of the fusion gene, including localization of the MLL breakpoints, is also informative. A method was developed to examine the fusion transcripts in order to identify the partner gene among the six most common ones and to establish the exon structure of the rearranged MLL. The method includes a multiplex reverse transcriptase-polymerase chain reaction (RT-PCR) to amplify and to fluorescently label a fusion transcript fragment and subsequent hybridization of the product on a biological microchip with immobilized oligonucleotides complementary to exons of MLL and its partner genes AFF1, MLLT1, MLLT3, MLLT4, MLLT10, and ELL. Hybridization results were verified by sequencing the RT-PCR products and, in some cases, performing long-distance inverse PCR (LDI-PCR). The study involved 38 bone marrow samples from ALL patients (including 33 children younger than 1 year of age) and 15 samples from AML patients (including 10 from children younger than 1 year of age). The main partner genes were AFF1 (49%), MLLT1 (27%), MLLT3 (12%), and MLLT10 (12%) in ALL and MLLT3 (80%), MLLT10 (10%), and MLLT4 (10%) in AML. Fusion gene transcripts most commonly included MLL exon 11 (58% of ALL cases and 50% of AML cases), suggesting a breakpoint in MLL intron 11.

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Allelic variants of immune response genes in children with infectious complications during the treatment of acute leukemia

Avdonina

Абрамов

Ammour

et al. 2017

Mol Biol

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Study of the Role of Polymorphism of ACE, GP1BA, PDE4D Genes and Clinical Features in the Development of Cerebrovascular Diseases

Анисимова¹,

Gunchenko²,

Ikonnikova³

et al. 2019

ijSciences

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The frequency of cerebrovascular diseases remains high in developed countries. Currently, studies are devoted to the study of factors predisposing to the development of cerebrovascular diseases, they include the study of both modified and not modified, including genetic ones. On the basis of the in Stroke center of N. I. Pirogov City Clinical Hospital №1, Moscow, two groups of patients were examined-91 patients with chronic cerebral ischemia and 69 patients with ischemic stroke. Associations of polymorphisms of ACE, GP1BA, PDE4D genes with the course of cerebrovascular diseases were identified.

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M. A. Avdonina

Novel fluorescently labeled nucleotides: synthesis, spectral properties and application in polymerase chain reaction

Биологический микрочип для определения структуры химерных транскриптов с участием гена MLL у детей, больных острыми лейкозами

Allelic variants of immune response genes in children with infectious complications during the treatment of acute leukemia

Study of the Role of Polymorphism of ACE, GP1BA, PDE4D Genes and Clinical Features in the Development of Cerebrovascular Diseases

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