Moa Wranne

Postdoc at Chemical Biology

Moa S. Wranne is a postdoctoral researcher in Fredrik Westerlund group at the Division of Chemical Biology since 2020. She participates in a collaboration with Karolinska Institutet and Muhimbili National Hospital in Tanzania, with the goal to develop a method for studying antibiotic resistant bacteria at hospitals in low- and middle-income countries. The idea is to modify the optical DNA mapping technique that has been developed in the Westerlund group so that the analysis can be performed using simple microscopes.

Source: chalmers.se

Contact Details

Publications (13)
Projects (0)

Showing 13 publications

2023

Identification and characterization of plasmids carrying the mobile colistin resistance gene mcr-1 using optical DNA mapping

Sriram Kesarimangalam, Moa Wranne, Tsegaye Sewunet et al

JAC-Antimicrobial Resistance. Vol. 5 (1)

Journal article

2020

Lighting Up DNA with the Environment-Sensitive Bright Adenine Analogue qAN4

Anders Foller Füchtbauer, Moa Sandberg Wranne, Sangamesh Sarangamath et al

ChemPlusChem. Vol. 85 (2), p. 319-326

Journal article

2020

Getting DNA and RNA out of the dark with 2CNqA: a bright adenine analogue and interbase FRET donor

Anna Wiktoria Wypijewska Del Nogal, Anders Foller Füchtbauer, Mattias Bood et al

Nucleic Acids Research. Vol. 48 (14), p. 7640-7652

Journal article

2019

Interbase FRET in RNA: from A to Z

Anders Foller Füchtbauer, Moa Sandberg Wranne, Mattias Bood et al

Nucleic Acids Research. Vol. 47 (19), p. 9990-9997

Journal article

2018

Synthesis, oligonucleotide incorporation and fluorescence properties in DNA of a bicyclic thymine analogue

Christopher Lawson, Anders Foller Füchtbauer, Moa Sandberg Wranne et al

Scientific Reports. Vol. 8 (1)

Journal article

2018

DNA and RNA base analogue FRET - from fluorophore design to biochemical applications

Moa Sandberg Wranne

Doctoral thesis

2018

Pentacyclic adenine: A versatile and exceptionally bright fluorescent DNA base analogue

Mattias Bood, Anders Foller Füchtbauer, Moa Sandberg Wranne et al

Chemical Science. Vol. 9 (14), p. 3494-3502

Journal article

2017

Fluorescent nucleobase analogues for base-base FRET in nucleic acids: Synthesis, photophysics and applications

Mattias Bood, Sangamesh Sarangamath, Moa Sandberg Wranne et al

Beilstein Journal of Organic Chemistry. Vol. 14, p. 114-129

Review article

2017

Toward Complete Sequence Flexibility of Nucleic Acid Base Analogue FRET

Moa Sandberg Wranne, Anders Foller Füchtbauer, Blaise Dumat et al

Journal of the American Chemical Society. Vol. 139 (27), p. 9271-9280

Journal article

2015

Second-Generation Fluorescent Quadracyclic Adenine Analogues: Environment-Responsive Probes with Enhanced Brightness

Blaise Dumat, Mattias Bood, Moa Sandberg Wranne et al

Chemistry - A European Journal. Vol. 21 (10), p. 4039-4048

Journal article

2015

Steady-state and time-resolved Thioflavin-T fluorescence can report on morphological differences in amyloid fibrils formed by A beta(1-40) and A beta(1-42)

David Lindberg, Moa Sandberg Wranne, Melina Gilbert Gatty et al

Biochemical and Biophysical Research Communications. Vol. 458 (2), p. 418-423

Journal article

2015

Design, development and characterization of enlarged adenines - towards novel base analogue FRET-pairs

Moa Sandberg Wranne

Licentiate thesis

2015

Development of bright fluorescent quadracyclic adenine analogues: TDDFT-calculation supported rational design

Anders Foller Füchtbauer, Blaise Dumat, Moa Sandberg Wranne et al

Scientific Reports. Vol. 5, p. art. no. 12653-

Journal article

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