(22683295), T. S., (6407921), M. P., (17737815), J. D. C., (22683298), L. T., (10532207), L. L., (22683301), Y. N., . . . (105574), L. V. (2025). Integration site analysis and near full-length (NFL) sequencing of p24 + cells. (A) Donut charts displaying the number of HIV integration sites (IS) obtained by ISLA from p24 + cells for four participants in the corresponding Fiebig group. White parts indicate IS detected once and colored parts indicate IS detected more than once. The total number of IS generated by ISLA for each participant is shown in the middle of each donut. (B) Proportion of intact and defective proviral sequences from p24 + cells (n = 47 sequences).
Chicago-referens (17:e uppl.)(22683295), Tine Struyve, Marion Pardons (6407921), Jozefien De Clercq (17737815), Liesbet Termote (22683298), Laurens Lambrechts (10532207), Ytse Noppe (22683301), Mathias Lichterfeld (57148), Sofie Rutsaert (10667718), och Linos Vandekerckhove (105574). Integration Site Analysis and Near Full-length (NFL) Sequencing of P24 + cells. (A) Donut Charts Displaying the Number of HIV Integration Sites (IS) Obtained by ISLA from P24 + cells for Four Participants in the Corresponding Fiebig Group. White Parts Indicate IS Detected Once and Colored Parts Indicate IS Detected More than Once. The Total Number of IS Generated by ISLA for Each Participant Is Shown in the Middle of Each Donut. (B) Proportion of Intact and Defective Proviral Sequences from P24 + cells (n = 47 Sequences). 2025.
MLA-referens (9:e uppl.)(22683295), Tine Struyve, et al. Integration Site Analysis and Near Full-length (NFL) Sequencing of P24 + cells. (A) Donut Charts Displaying the Number of HIV Integration Sites (IS) Obtained by ISLA from P24 + cells for Four Participants in the Corresponding Fiebig Group. White Parts Indicate IS Detected Once and Colored Parts Indicate IS Detected More than Once. The Total Number of IS Generated by ISLA for Each Participant Is Shown in the Middle of Each Donut. (B) Proportion of Intact and Defective Proviral Sequences from P24 + cells (n = 47 Sequences). 2025.