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- Eisfeldt, J., et al.
(författare)
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Comprehensive structural variation genome map of individuals carrying complex chromosomal rearrangements
- 2019
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Ingår i: PLOS Genetics. - : NLM (Medline). - 1553-7390 .- 1553-7404. ; 15:2
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Tidskriftsartikel (refereegranskat)abstract
- Complex chromosomal rearrangements (CCRs) are rearrangements involving more than two chromosomes or more than two breakpoints. Whole genome sequencing (WGS) allows for outstanding high resolution characterization on the nucleotide level in unique sequences of such rearrangements, but problems remain for mapping breakpoints in repetitive regions of the genome, which are known to be prone to rearrangements. Hence, multiple complementary WGS experiments are sometimes needed to solve the structures of CCRs. We have studied three individuals with CCRs: Case 1 and Case 2 presented with de novo karyotypically balanced, complex interchromosomal rearrangements (46,XX,t(2;8;15)(q35;q24.1;q22) and 46,XY,t(1;10;5)(q32;p12;q31)), and Case 3 presented with a de novo, extremely complex intrachromosomal rearrangement on chromosome 1. Molecular cytogenetic investigation revealed cryptic deletions in the breakpoints of chromosome 2 and 8 in Case 1, and on chromosome 10 in Case 2, explaining their clinical symptoms. In Case 3, 26 breakpoints were identified using WGS, disrupting five known disease genes. All rearrangements were subsequently analyzed using optical maps, linked-read WGS, and short-read WGS. In conclusion, we present a case series of three unique de novo CCRs where we by combining the results from the different technologies fully solved the structure of each rearrangement. The power in combining short-read WGS with long-molecule sequencing or optical mapping in these unique de novo CCRs in a clinical setting is demonstrated.
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| 2. |
- Grimm, Sebastian, et al.
(författare)
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Single domain affinity proteins for the detection of the genome organizer protein SATB1
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Annan publikation (övrigt vetenskapligt/konstnärligt)abstract
- Affibody molecules and VHH antibody fragments are two classes of affinity proteins, both characterized by a small size and a single subunit domain structure. Here, we report the selection and characterization of affinity proteins from both classes against the special AT rich sequence binding protein SATB1, a suggested marker protein for aggressive and metastasizing breast cancer. The selected VHH antibody fragments originate from a nonimmune phage display library, while affibody molecules were selected from a library constructed in vitro and displayed on ribosomes. It was observed that selected molecules recognizing one of three conserved DNA-binding domains of SATB1, also recognized its close homologue SATB2 while several of the selected molecules from both classes binding to other regions selectively recognized SATB1. Two of these SATB1 selective molecules, VHH clone 2D2 and affibody molecule clone ZSATB1:2, performed well in differentimmunotechnology applications including ELISA, WB, IF and pull-out experiments and gave a selective staining of endogenous SATB1 in Jurkat T cells. These molecules may thus become useful tools, either alone or in combination, for the selective detection of SATB1 in breast tumor specimens. Due to their small size in comparison to immunoglobulins, such single domain binding proteins may be suitable for high resolution microscopy techniques such as Stimulated Emission Depletion (STED) microscopy, where the resolution may get constrained by the size of the affinity reagent.
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