Bradley R. Cairns | Spencer Fox Eccles School of Medicine

Bradley R. Cairns | Spencer Fox Eccles School of Medicine
Bradley R. Cairns, PhD
Languages spoken:
Academic Information
Departments
Primary -

Oncological Sciences
, Adjunct -

Biochemistry
Lab
Lab Website: Cairns Lab
Dr. Bradley R. Cairns serves as CEO of Huntsman Cancer Institute, a nationally recognized cancer research center and hospital, with extensive programs engaging communities, serving students, and advancing cancer education efforts.
Cairns is a pioneering molecular biologist whose research has transformed our understanding of gene packaging and gene expression, also termed epigenetics, in development and cancer. He earned his B.S. in Chemistry from Lewis and Clark College in 1987, followed by a Ph.D. in Cell Biology from Stanford University in 1996, where he trained under Nobel Laureate Roger Kornberg. His postdoctoral work included fellowships at Stanford and Harvard Medical School, focusing on genetic and genome approaches to gene packaging.
In 1998, Dr. Cairns joined the University of Utah’s Department of Oncological Sciences and Huntsman Cancer Institute. He was selected as a Howard Hughes Medical Institute Investigator in 2000. He has served in a number of major leadership capacities at the University of Utah and Huntsman Cancer Institute. These include Senior Director of Basic Science (2010-2020); and Chief Academic Officer (2020-present) at Huntsman Cancer Institute; as well as chair of the Molecular Biology Graduate Program (2008-2011), Chair of the Department of Oncological Sciences (2013-2025), American Association for Cancer Research Science Policy and Government Affairs Committee (2025-2026), and various national and international scientific advisory boards.
Dr. Cairns was the first to purify gene packaging complexes such as SWI/SNF and RSC, revealing how these molecular machines unpack genes to enable expression—a process disrupted in 20% of all cancers. His lab has made landmark discoveries in germline gene packaging and epigenetics, identifying how developmental genes are poised for activation in embryos as well as characterizing the long-sought undifferentiated human spermatogonial stem cells
His research spans multiple model organisms—yeast, zebrafish, mice, and humans—and integrates biochemistry, genetics, and genomics to explore epigenetic regulation. His work has illuminated how epigenetic dynamics govern totipotency in early embryos and how these mechanisms are misregulated in cancer
Dr. Cairns is deeply committed to mentorship and inclusion, having trained over 25 graduate students and numerous postdoctoral fellows. Key initiatives under his oversight included the establishment of the Leadership Excellence Advancement and Development (LEAD) Program. LEAD joins together cohorts of clinical investigators, cancer research scientists, and senior staff leaders to foster growth in leadership skills designed to advance the culture and impact of Huntsman Cancer Institute. Cairns also spearheaded the organization of scientific and experiential learning programs at HCI that involved partnership with trainees from Brigham Young University and Utah Valley University, designed to enhance pathways for more Utah students to prepare for the future health and research workforce. These include the Huntsman Cancer Institute-Utah Valley University Health Collaborative, which provides experiential learning through work opportunities in cancer research. Also, he initiated two endeavors with Brigham Young University: one engages biomedical informatics students from BYU in cancer-focused capstone projects utilizing methods including artificial intelligence and data science; the other provides full-time summer research opportunities in an array of cancer research areas.
In recognition of his scientific contributions, Cairns was elected as a Fellow of the Royal Society, the world’s oldest science academy, and as a Fellow of the American Academy of Arts and Sciences.
Research Statement
Cancer is a disease involoving improper cell growth, death and differentiation. My research focuses on determining - at the mechanistic level - how a cell normally regulates processes important to cancer such as chromatin structure, transcription, and developmental decisions.
Research: The Cairns lab strives to understand chromatin-transcription relationships – with an emphasis on development and cancer – and effectively utilizes biochemistry, genetics, and genomics in multiple model systems. The areas/questions the lab addresses include 1) Chromatin remodeling: How are nucleosomes moved and ejected by chromatin-remodeling complexes, and how is this progress misregulated in cancer? 2) Germline and embryo gene packaging: Are genes important for embryo development (and oncogenesis) packaged in special chromatin structures while in the germline and what is their fate and impact in the early embryo? 3) How is Totipotency – the ability to become any cell type – established in early cleavage-stage embryos, and are the factors involved misregulated in cancer? 4) How does the genome ‘sculpt’ chromatin structure to achieve proper gene regulation prior to the onset of transcription in embryos.
Education History
Undergraduate
Lewis and Clark College
BS
Doctoral Training
Stanford University - Roger Kornberg, PhD
PhD
Postdoctoral Fellowship
Stanford University - Roger Kornberg, PhD
Postdoctoral Fellow
Postdoctoral Fellowship
Harvard Medical School - Fred Winston, PhD
Postdoctoral Fellow
Selected Publications
Journal Article
Dutrow N, Nix DA, Holt D, Milash B, Dalley B, Westbroek E, Parnell TJ, Cairns B (2008). Dynamic transcriptome of Schizosaccharomyces pombe shown by RNA-DNA hybrid mapping.
Nature genetics
40
(8), 977-86.
Hendrickson PG, Cairns B (2016). Tet proteins enhance the developmental hourglass.
Nature genetics
48
(4), 345-7.
Hendrickson PG, Doráis JA, Grow EJ, Whiddon JL, Lim JW, Wike CL, Weaver BD, Pflueger C, Emery BR, Wilcox AL, Nix DA, Peterson CM, Tapscott SJ, Carrell DT, Cairns B (2017). Conserved roles of mouse DUX and human DUX4 in activating cleavage-stage genes and MERVL/HERVL retrotransposons.
Nature genetics
49
(6), 925-934.
Grow EJ, Weaver BD, Smith CM, Guo J, Stein P, Shadle SC, Hendrickson PG, Johnson NE, Butterfield RJ, Menafra R, Kloet SL, van der Maarel SM, Williams CJ, Cairns B (2021). p53 convergently activates Dux/DUX4 in embryonic stem cells and in facioscapulohumeral muscular dystrophy cell models.
Nature genetics
53
(8), 1207-1220.
Zhang H, Roberts DN, Cairns B (2005). Genome-wide dynamics of Htz1, a histone H2A variant that poises repressed/basal promoters for activation through histone loss.
Cell
123
(2), 219-31.
Rai K, Huggins IJ, James SR, Karpf AR, Jones DA, Cairns B (2008). DNA demethylation in zebrafish involves the coupling of a deaminase, a glycosylase, and gadd45.
Cell
135
(7), 1201-12.
Rai K, Sarkar S, Broadbent TJ, Voas M, Grossmann KF, Nadauld LD, Dehghanizadeh S, Hagos FT, Li Y, Toth RK, Chidester S, Bahr TM, Johnson WE, Sklow B, Burt R, Cairns BR, Jones D (2010). DNA demethylase activity maintains intestinal cells in an undifferentiated state following loss of APC.
Cell
142
(6), 930-42.
Potok ME, Nix DA, Parnell TJ, Cairns B (2013). Reprogramming the maternal zebrafish genome after fertilization to match the paternal methylation pattern.
Cell
153
(4), 759-72.
Murphy PJ, Wu SF, James CR, Wike CL, Cairns B (2018). Placeholder Nucleosomes Underlie Germline-to-Embryo DNA Methylation Reprogramming.
Cell
172
(5), 993-1006.e13.
Kasten MM, Clapier CR, Cairns B (2011). SnapShot: Chromatin remodeling: SWI/SNF.
Cell
144
(2), 310.e1.
Cairns B (2004). Around the world of DNA damage INO80 days.
Cell
119
(6), 733-5.
Rougeot J, Chrispijn ND, Aben M, Elurbe DM, Andralojc KM, Murphy PJ, Jansen PWTC, Vermeulen M, Cairns BR, Kamminga L (2019). Maintenance of spatial gene expression by Polycomb-mediated repression after formation of a vertebrate body plan.
Development (Cambridge, England)
146
(19),
Sirinakis G, Clapier CR, Gao Y, Viswanathan R, Cairns BR, Zhang (2011). The RSC chromatin remodelling ATPase translocates DNA with high force and small step size.
The EMBO journal
30
(12), 2364-72.
Oler AJ, Cairns B (2012). PP4 dephosphorylates Maf1 to couple multiple stress conditions to RNA polymerase III repression.
The EMBO journal
31
(6), 1440-52.
Aston KI, Uren PJ, Jenkins TG, Horsager A, Cairns BR, Smith AD, Carrell D (2015). Aberrant sperm DNA methylation predicts male fertility status and embryo quality.
Fertility and sterility
104
(6), 1388-97.e1-5.
Rai K, Chidester S, Zavala CV, Manos EJ, James SR, Karpf AR, Jones DA, Cairns B (2007). Dnmt2 functions in the cytoplasm to promote liver, brain, and retina development in zebrafish.
Genes & development
21
(3), 261-6.
Hammoud SS, Low DH, Yi C, Lee CL, Oatley JM, Payne CJ, Carrell DT, Guccione E, Cairns B (2015). Transcription and imprinting dynamics in developing postnatal male germline stem cells.
Genes & development
29
(21), 2312-24.
Huang F, Ramakrishnan S, Pokhrel S, Pflueger C, Parnell TJ, Kasten MM, Currie SL, Bhachech N, Horikoshi M, Graves BJ, Cairns BR, Bhaskara S, Chandrasekharan M (2015). Interaction of the Jhd2 Histone H3 Lys-4 Demethylase with Chromatin Is Controlled by Histone H2A Surfaces and Restricted by H2B Ubiquitination.
The Journal of biological chemistry
290
(48), 28760-77.
Khoddami V, Yerra A, Cairns B (2015). Experimental Approaches for Target Profiling of RNA Cytosine Methyltransferases.
Methods in enzymology
560
, 273-96.
Soutourina J, Bordas-Le Floch V, Gendrel G, Flores A, Ducrot C, Dumay-Odelot H, Soularue P, Navarro F, Cairns BR, Lefebvre O, Werner (2006). Rsc4 connects the chromatin remodeler RSC to RNA polymerases.
Molecular and cellular biology
26
(13), 4920-33.
Hammoud SS, Nix DA, Zhang H, Purwar J, Carrell DT, Cairns B (2009). Distinctive chromatin in human sperm packages genes for embryo development.
Nature
460
(7254), 473-8.
Cairns B (2009). The logic of chromatin architecture and remodelling at promoters.
Nature
461
(7261), 193-8.
Clapier CR, Cairns B (2012). Regulation of ISWI involves inhibitory modules antagonized by nucleosomal epitopes.
Nature
492
(7428), 280-4.
Jones KB, Barrott JJ, Xie M, Haldar M, Jin H, Zhu JF, Monument MJ, Mosbruger TL, Langer EM, Randall RL, Wilson RK, Cairns BR, Ding L, Capecchi M (2016). The impact of chromosomal translocation locus and fusion oncogene coding sequence in synovial sarcomagenesis.
Oncogene
35
(38), 5021-32.
Nelson AC, Cauceglia JW, Merkley SD, Youngson NA, Oler AJ, Nelson RJ, Cairns BR, Whitelaw E, Potts W (2013). Reintroducing domesticated wild mice to sociality induces adaptive transgenerational effects on MUP expression.
Proceedings of the National Academy of Sciences of the United States of America
110
(49), 19848-53.
Khoddami V, Yerra A, Mosbruger TL, Fleming AM, Burrows CJ, Cairns B (2019). Transcriptome-wide profiling of multiple RNA modifications simultaneously at single-base resolution.
Proceedings of the National Academy of Sciences of the United States of America
116
(14), 6784-6789.
Ye Y, Wu H, Chen K, Clapier CR, Verma N, Zhang W, Deng H, Cairns BR, Gao N, Chen (2019). Structure of the RSC complex bound to the nucleosome.
Science (New York, N.Y.)
366
(6467), 838-843.
Wu SF, Zhang H, Cairns B (2011). Genes for embryo development are packaged in blocks of multivalent chromatin in zebrafish sperm.
Genome research
21
(4), 578-89.
Cakiroglu A, Clapier CR, Ehrensberger AH, Darbo E, Cairns BR, Luscombe NM, Svejstrup J (2019). Genome-wide reconstitution of chromatin transactions reveals that RSC preferentially disrupts H2AZ-containing nucleosomes.
Genome research
29
(6), 988-998.
Nakamura R, Motai Y, Kumagai M, Wike CL, Nishiyama H, Nakatani Y, Durand NC, Kondo K, Kondo T, Tsukahara T, Shimada A, Cairns BR, Aiden EL, Morishita S, Takeda (2021). CTCF looping is established during gastrulation in medaka embryos.
Genome research
31
(6), 968-980.
Wike CL, Guo Y, Tan M, Nakamura R, Shaw DK, Díaz N, Whittaker-Tademy AF, Durand NC, Aiden EL, Vaquerizas JM, Grunwald D, Takeda H, Cairns B (2021). Chromatin architecture transitions from zebrafish sperm through early embryogenesis.
Genome research
31
(6), 981-994.
Khoddami V, Cairns B (2013). Identification of direct targets and modified bases of RNA cytosine methyltransferases.
Nature biotechnology
31
(5), 458-64.
Roberts DN, Wilson B, Huff JT, Stewart AJ, Cairns B (2006). Dephosphorylation and genome-wide association of Maf1 with Pol III-transcribed genes during repression.
Molecular cell
22
(5), 633-44.
VanDemark AP, Kasten MM, Ferris E, Heroux A, Hill CP, Cairns B (2007). Autoregulation of the rsc4 tandem bromodomain by gcn5 acetylation.
Molecular cell
27
(5), 817-28.
Clapier CR, Kasten MM, Parnell TJ, Viswanathan R, Szerlong H, Sirinakis G, Zhang Y, Cairns B (2016). Regulation of DNA Translocation Efficiency within the Chromatin Remodeler RSC/Sth1 Potentiates Nucleosome Sliding and Ejection.
Molecular cell
62
(3), 453-461.
Clapier CR, Verma N, Parnell TJ, Cairns B (2020). Cancer-Associated Gain-of-Function Mutations Activate a SWI/SNF-Family Regulatory Hub.
Molecular cell
80
(4), 712-725.e5.
Shi J, Zhang Y, Tan D, Zhang X, Yan M, Zhang Y, Franklin R, Shahbazi M, Mackinlay K, Liu S, Kuhle B, James ER, Zhang L, Qu Y, Zhai Q, Zhao W, Zhao L, Zhou C, Gu W, Murn J, Guo J, Carrell DT, Wang Y, Chen X, Cairns BR, Yang XL, Schimmel P, Zernicka-Goetz M, Cheloufi S, Zhang Y, Zhou T, Chen (2021). PANDORA-seq expands the repertoire of regulatory small RNAs by overcoming RNA modifications.
Nature cell biology
23
(4), 424-436.
Clapier CR, Iwasa J, Cairns BR, Peterson C (2017). Mechanisms of action and regulation of ATP-dependent chromatin-remodelling complexes.
Nature reviews. Molecular cell biology
18
(7), 407-422.
Gambini A, Stein P, Savy V, Grow EJ, Papas BN, Zhang Y, Kenan AC, Padilla-Banks E, Cairns BR, Williams C (2020). Developmentally Programmed Tankyrase Activity Upregulates ß-Catenin and Licenses Progression of Embryonic Genome Activation.
Developmental cell
53
(5), 545-560.e7.
Saha A, Wittmeyer J, Cairns B (2005). Chromatin remodeling through directional DNA translocation from an internal nucleosomal site.
Nature structural & molecular biology
12
(9), 747-55.
Szerlong H, Hinata K, Viswanathan R, Erdjument-Bromage H, Tempst P, Cairns B (2008). The HSA domain binds nuclear actin-related proteins to regulate chromatin-remodeling ATPases.
Nature structural & molecular biology
15
(5), 469-76.
Oler AJ, Alla RK, Roberts DN, Wong A, Hollenhorst PC, Chandler KJ, Cassiday PA, Nelson CA, Hagedorn CH, Graves BJ, Cairns B (2010). Human RNA polymerase III transcriptomes and relationships to Pol II promoter chromatin and enhancer-binding factors.
Nature structural & molecular biology
17
(5), 620-8.
Jenkins TG, Aston KI, Pflueger C, Cairns BR, Carrell D (2014). Age-associated sperm DNA methylation alterations: possible implications in offspring disease susceptibility.
PLoS genetics
10
(7), e1004458.
Murphy PJ, Guo J, Jenkins TG, James ER, Hoidal JR, Huecksteadt T, Broberg DS, Hotaling JM, Alonso DF, Carrell DT, Cairns BR, Aston K (2020). NRF2 loss recapitulates heritable impacts of paternal cigarette smoke exposure.
PLoS genetics
16
(6), e1008756.
Hammoud SS, Low DH, Yi C, Carrell DT, Guccione E, Cairns B (2014). Chromatin and transcription transitions of mammalian adult germline stem cells and spermatogenesis.
Cell stem cell
15
(2), 239-53.
Guo J, Grow EJ, Yi C, Mlcochova H, Maher GJ, Lindskog C, Murphy PJ, Wike CL, Carrell DT, Goriely A, Hotaling JM, Cairns B (2017). Chromatin and Single-Cell RNA-Seq Profiling Reveal Dynamic Signaling and Metabolic Transitions during Human Spermatogonial Stem Cell Development.
Cell stem cell
21
(4), 533-546.e6.
Guo J, Nie X, Giebler M, Mlcochova H, Wang Y, Grow EJ, DonorConnect., Kim R, Tharmalingam M, Matilionyte G, Lindskog C, Carrell DT, Mitchell RT, Goriely A, Hotaling JM, Cairns B (2020). The Dynamic Transcriptional Cell Atlas of Testis Development during Human Puberty.
Cell stem cell
26
(2), 262-276.e4.
Guo J, Sosa E, Chitiashvili T, Nie X, Rojas EJ, Oliver E, DonorConnect., Plath K, Hotaling JM, Stukenborg JB, Clark AT, Cairns B (2021). Single-cell analysis of the developing human testis reveals somatic niche cell specification and fetal germline stem cell establishment.
Cell stem cell
28
(4), 764-778.e4.
Guo J, Cairns B (2019). Isolation and Enrichment of Spermatogonial Stem Cells From Human Testis Tissues.
Current protocols in stem cell biology
49
(1), e77.
Varshney D, Vavrova-Anderson J, Oler AJ, Cowling VH, Cairns BR, White R (2015). SINE transcription by RNA polymerase III is suppressed by histone methylation but not by DNA methylation.
Nature communications
, 6569.
Ramakrishnan S, Pokhrel S, Palani S, Pflueger C, Parnell TJ, Cairns BR, Bhaskara S, Chandrasekharan M (2016). Counteracting H3K4 methylation modulators Set1 and Jhd2 co-regulate chromatin dynamics and gene transcription.
Nature communications
, 11949.
Li J, Mulvihill TS, Li L, Barrott JJ, Nelson ML, Wagner L, Lock IC, Pozner A, Lambert SL, Ozenberger BB, Ward MB, Grossmann AH, Liu T, Banito A, Cairns BR, Jones K (2021). A Role for SMARCB1 in Synovial Sarcomagenesis Reveals That SS18-SSX Induces Canonical BAF Destruction.
Cancer discovery
11
(10), 2620-2637.
Jenkins TG, James ER, Alonso DF, Hoidal JR, Murphy PJ, Hotaling JM, Cairns BR, Carrell DT, Aston K (2017). Cigarette smoking significantly alters sperm DNA methylation patterns.
Andrology
(6), 1089-1099.
Parnell TJ, Schlichter A, Wilson BG, Cairns B (2015). The chromatin remodelers RSC and ISW1 display functional and chromatin-based promoter antagonism.
eLife
, e06073.
Parnell T J, Schlicter A, Wilson B G, Cairns B (2015). The chromatin remodelers RSC and ISW1 display functional and chromatin-based promoter antagonism.
eLife
, e06073.
Schlichter A, Kasten MM, Parnell TJ, Cairns B (2020). Specialization of the chromatin remodeler RSC to mobilize partially-unwrapped nucleosomes.
eLife
Chen H, Murray E, Sinha A, Laumas A, Li J, Lesman D, Nie X, Hotaling J, Guo J, Cairns BR, Macosko EZ, Cheng CY, Chen (2021). Dissecting mammalian spermatogenesis using spatial transcriptomics.
Cell reports
37
(5), 109915.
Sun W, Guo J, McClellan D, Poeschla A, Bareyan D, Casey MJ, Cairns BR, Tantin D, Engel M (2022). GFI1 Cooperates with IKZF1/IKAROS to Activate Gene Expression in T-cell Acute Lymphoblastic Leukemia.
Molecular cancer research
20
, 501-514.
Nie X, Munyoki SK, Sukhwani M, Schmid N, Missel A, Emery BR, DonorConnect, Stukenborg JB, Mayerhofer A, Orwig KE, Aston KI, Hotaling JM, Cairns BR, Guo (2022). Single-cell analysis of human testis aging and correlation with elevated body mass index.
Developmental cell
57
(9), 1160-1176.e5.
D'Orazio FM, Balwierz PJ, González AJ, Guo Y, Hernández-Rodríguez B, Wheatley L, Jasiulewicz A, Hadzhiev Y, Vaquerizas JM, Cairns B, Lenhard B, Müller (2021). Germ cell differentiation requires Tdrd7-dependent chromatin and transcriptome reprogramming marked by germ plasm relocalization.
Developmental cell
56
(5), 641-656.e5.
Tharmalingam MD, Matilionyte G, Wallace WHB, Stukenborg JB, Jahnukainen K, Oliver E, Goriely A, Lane S, Guo J, Cairns B, Jorgensen A, Allen CM, Lopes F, Anderson RA, Spears N, Mitchell R (2020). Cisplatin and carboplatin result in similar gonadotoxicity in immature human testis with implications for fertility preservation in childhood cancer.
BMC medicine
18
(1), 374.
Jenkins TG, Aston KI, Cairns B, Smith A, Carrell D (2018). Paternal germ line aging: DNA methylation age prediction from human sperm.
BMC genomics
19
(1), 763.
Wang X, Cairns BR, Guo (2022). When spermatogenesis meets human aging and elevated body mass.
Life medicine
(3), 267-269.
Wamaitha SE, Nie X, Pandolfi EC, Wang X, Yang Y, Stukenborg JB, Cairns BR, Guo J, Clark A (2023). Single-cell analysis of the developing human ovary defines distinct insights into ovarian somatic and germline progenitors.
Developmental cell
58
(20), 2097-2111.
Feng BJ, Kohlmann W, Nix DA, Atkinson A, Boucher KM, Carroll C, Stubben CJ, Kolesar J, Singer EA, Riedlinger G, Edge S, Sahu KK, Churchman M, Graham L, Salhia B, Sanchez A, Zakharia Y, Schneider BP, Jain R, Byrne L, Moskaluk CA, Nepple K, Shabsigh A, Chahoud J, Cairns BR, Gupta (2025). Germline whole-exome sequencing reveals FOXP3-related gene variants conferring urinary cancer susceptibility and associated with immune escape.
Journal for immunotherapy of cancer
13
(9),
Yi C, Kitamura Y, Maezawa S, Namekawa SH, Cairns B (2025). ZBTB16/PLZF regulates juvenile spermatogonial stem cell development through an extensive transcription factor poising network.
Nature structural & molecular biology
32
(7), 1213-1226.
Jiang Q, Cui L, Nie X, Cai H, Zhang W, Lu X, Guo Y, Hotaling JM, Cairns BR, Wang X, Guo (2025). A Single-Cell Transcriptome Atlas Characterizes the Immune Landscape of Human Testes During Aging.
Aging cell
24
(6), e70032.
Cui L, Nie X, Guo Y, Ren P, Guo Y, Wang X, Li R, Hotaling JM, Cairns BR, Guo (2025). Single-cell transcriptomic atlas of the human testis across the reproductive lifespan.
Nature aging
(4), 658-674.
Shen Z, Wu Y, Manna A, Yi C, Cairns BR, Evason KJ, Chandrasekharan MB, Tantin (2024). Oct4 redox sensitivity potentiates reprogramming and differentiation.
Genes & development
38
(7-8), 308-321.
Smith CM, Grow EJ, Shadle SC, Cairns B (2023). Multiple repeat regions within mouse DUX recruit chromatin regulators to facilitate an embryonic gene expression program.
bioRxiv
Review
Kasten MM, Clapier CR, Cairns B (2011). SnapShot: Chromatin remodeling: SWI/SNF.
Cell
144
(2), 310.e.l..
Other
Shi J, Zhang Y, Tan D, Zhang X, Yan M, Zhang Y, Franklin R, Shahbazi M, Mackinlay K, Liu S, Kuhle B, James ER, Zhang L, Qu Y, Zhai Q, Zhao W, Zhao L, Zhou C, Gu W, Murn J, Guo J, Carrell DT, Wang Y, Chen X, Cairns BR, Yang XL, Schimmel P, Zernicka-Goetz M, Cheloufi S, Zhang Y, Zhou T, Chen (2021). Author Correction: PANDORA-seq expands the repertoire of regulatory small RNAs by overcoming RNA modifications.
Nature cell biology
23
(6), 676.
Hickey GJ, Wike CL, Nie X, Guo Y, Tan M, Murphy PJ, Cairns B (2022). Establishment of developmental gene silencing by ordered polycomb complex recruitment in early zebrafish embryos.
eLife
11
News & Podcasts
Huntsman Cancer Institute News
Discovery Innovations Special Edition 2026
Celebrating Mary Beckerle, a Visionary Huntsman Cancer Institute Leader
Bradley Cairns, PhD, Begins Tenure as CEO of Huntsman Cancer Institute
Alana Welm, PhD, Named Chair of Oncological Sciences in the Spencer Fox Eccles School of Medicine at the University of Utah
Renowned Researcher Bradley R. Cairns, PhD, Elected as a Fellow of the Royal Society
Three Talented Researchers Recognized as Endowed Chairs
Grieving the Loss of Your Health
Talks with Docs: Brad Cairns, Cancer Researcher
First-Ever Genomic Study of Puberty Yields Insights into Development, Cancer, and Infertility