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Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome

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Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome. / Mills, Debbie; Dai, Li; Korenberg, Julie R.
In: Scientific Reports, 01.01.2025.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Mills, D, Dai, L & Korenberg, JR 2025, 'Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome', Scientific Reports.

APA

Mills, D., Dai, L., & Korenberg, J. R. (in press). Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome. Scientific Reports.

CBE

Mills D, Dai L, Korenberg JR. 2025. Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome. Scientific Reports.

MLA

Mills, Debbie, Li Dai and Julie R. Korenberg. "Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome". Scientific Reports. 2025.

VancouverVancouver

Mills D, Dai L, Korenberg JR. Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23: Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome. Scientific Reports. 2025 Jan 1.

Author

Mills, Debbie ; Dai, Li ; Korenberg, Julie R. / Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23 : Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome. In: Scientific Reports. 2025.

RIS

TY - JOUR

T1 - Brain lateralization for perceiving direction of motion is reversed in Williams syndrome and related to BUD23

T2 - Genetic Influence of BUD23 on Reversed Brain Lateralization and Motion Perception in Williams Syndrome

AU - Mills, Debbie

AU - Dai, Li

AU - Korenberg, Julie R.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Lateralized nervous system function is phylogenetically old but fundamentally important for human brain function. Although altered in developmental and psychiatric disorders, we know little about its genetics. To understand the genetic origins of hemispheric specialization, we investigated laterality in a genetic disorder, Williams Syndrome (WS), caused by ~27 deleted genes on 7q11.2. Using a multidisciplinary approach combining individuals’ molecular genetic, electrophysiological, and behavioral data, we identify reversed lateralization, from right to left hemisphere for perceiving direction of motion in WS and show hemispheric strengths are inversely correlated. Moreover, we correlate decreased transcript levels of the deleted gene BUD23, with strength of the reversed lateralization and with decreased performance in mental rotation, another right hemisphere lateralized function. The results implicate dosed BUD23, an 18S ribosomal RNA methyltransferase, in human brain laterality, support an evolutionary origin and provide altered lateralization as a novel mechanism for impaired cognition in genetic and behavioral disorders.

AB - Lateralized nervous system function is phylogenetically old but fundamentally important for human brain function. Although altered in developmental and psychiatric disorders, we know little about its genetics. To understand the genetic origins of hemispheric specialization, we investigated laterality in a genetic disorder, Williams Syndrome (WS), caused by ~27 deleted genes on 7q11.2. Using a multidisciplinary approach combining individuals’ molecular genetic, electrophysiological, and behavioral data, we identify reversed lateralization, from right to left hemisphere for perceiving direction of motion in WS and show hemispheric strengths are inversely correlated. Moreover, we correlate decreased transcript levels of the deleted gene BUD23, with strength of the reversed lateralization and with decreased performance in mental rotation, another right hemisphere lateralized function. The results implicate dosed BUD23, an 18S ribosomal RNA methyltransferase, in human brain laterality, support an evolutionary origin and provide altered lateralization as a novel mechanism for impaired cognition in genetic and behavioral disorders.

M3 - Article

JO - Scientific Reports

JF - Scientific Reports

SN - 2045-2322

ER -