Xinjiang Cai scite author profile

The factors regulating the expression of microRNAs (miRNAs), a ubiquitous family of ∼22-nt noncoding regulatory RNAs, remain undefined. However, it is known that miRNAs are first transcribed as a largely unstructured precursor, termed a primary miRNA (pri-miRNA), which is sequentially processed in the nucleus, to give the ∼65-nt pre-miRNA hairpin intermediate, and then in the cytoplasm, to give the mature miRNA. Here we have sought to identify the RNA polymerase responsible for miRNA transcription and to define the structure of a full-length human miRNA. We show that the pri-miRNA precursors for nine human miRNAs are both capped and polyadenylated and report the sequence of the full-length, ∼3433-nt pri-miR-21 RNA. This pri-miR-21 gene sequence is flanked 5 by a promoter element able to transcribe heterologous mRNAs and 3 by a consensus polyadenylation sequence. Nuclear processing of pri-miRNAs was found to be efficient, thus largely preventing the nuclear export of full-length pri-miRNAs. Nevertheless, an intact miRNA stem-loop precursor located in the 3 UTR of a protein coding gene only moderately inhibited expression of the linked open reading frame, probably because the 3 truncated mRNA could still be exported and expressed. Together, these data show that human pri-miRNAs are not only structurally similar to mRNAs but can, in fact, function both as pri-miRNAs and mRNAs.

show abstract

Epstein–Barr Virus MicroRNAs Are Evolutionarily Conserved and Differentially Expressed

Cai

et al. 2006

View full text Add to dashboard Cite

The pathogenic lymphocryptovirus Epstein–Barr virus (EBV) is shown to express at least 17 distinct microRNAs (miRNAs) in latently infected cells. These are arranged in two clusters: 14 miRNAs are located in the introns of the viral BART gene while three are located adjacent to BHRF1. The BART miRNAs are expressed at high levels in latently infected epithelial cells and at lower, albeit detectable, levels in B cells. In contrast to the tissue-specific expression pattern of the BART miRNAs, the BHRF1 miRNAs are found at high levels in B cells undergoing stage III latency but are essentially undetectable in B cells or epithelial cells undergoing stage I or II latency. Induction of lytic EBV replication was found to enhance the expression of many, but not all, of these viral miRNAs. Rhesus lymphocryptovirus, which is separated from EBV by ≥13 million years of evolution, expresses at least 16 distinct miRNAs, seven of which are closely related to EBV miRNAs. Thus, lymphocryptovirus miRNAs are under positive selection and are likely to play important roles in the viral life cycle. Moreover, the differential regulation of EBV miRNA expression implies distinct roles during infection of different human tissues.

show abstract

Somatic mutation in single human neurons tracks developmental and transcriptional history

Lodato

Woodworth

Lee

et al. 2015

Science

494

525

View full text Add to dashboard Cite

Neurons live for decades in a postmitotic state, their genomes susceptible to DNA damage. Here we survey the landscape of somatic single-nucleotide variants (SNVs) in the human brain. We identified thousands of somatic SNVs by single-cell sequencing of 36 neurons from the cerebral cortex of three normal individuals. Unlike germline and cancer SNVs, which are often caused by errors in DNA replication, neuronal mutations appear to reflect damage during active transcription. Somatic mutations create nested lineage trees, allowing them to be dated relative to developmental landmarks and revealing a polyclonal architecture of the human cerebral cortex. Thus, somatic mutations in the brain represent a durable and ongoing record of neuronal life history, from development through postmitotic function.

show abstract

Single-Neuron Sequencing Analysis of L1 Retrotransposition and Somatic Mutation in the Human Brain

Evrony

Cai

Lee

et al. 2012

Cell

485

523

View full text Add to dashboard Cite

Summary A major unanswered question in neuroscience is whether there exists genomic variability between individual neurons of the brain, contributing to functional diversity or to an unexplained burden of neurological disease. To address this question, we developed a method to amplify genomes of single neurons from human brains. Since recent reports suggest frequent LINE-1 (L1) retrotransposition in human brains, we performed genome-wide L1 insertion profiling of 300 single neurons from cerebral cortex and caudate nucleus of 3 normal individuals, recovering >80% of germline insertions from single neurons. While we find somatic L1 insertions, we estimate <0.6 unique somatic insertions per neuron and most neurons lack detectable somatic insertions, suggesting that L1 is not a major generator of neuronal diversity in cortex and caudate. We then genotyped single cortical cells to characterize the mosaicism of a somatic AKT3 mutation identified in a child with hemimegalencephaly. Single-neuron sequencing allows systematic assessment of genomic diversity in the human brain.

show abstract

Essential requirement for two-pore channel 1 in NAADP-mediated calcium signaling

et al. 2009

View full text Add to dashboard Cite

Nicotinic acid adenine dinucleotide phosphate (NAADP) is a widespread and potent calcium-mobilizing messenger that is highly unusual in activating calcium channels located on acidic stores. However, the molecular identity of the target protein is unclear. In this study, we show that the previously uncharacterized human two-pore channels (TPC1 and TPC2) are endolysosomal proteins, that NAADP-mediated calcium signals are enhanced by overexpression of TPC1 and attenuated after knockdown of TPC1, and that mutation of a single highly conserved residue within a putative pore region abrogated calcium release by NAADP. Thus, TPC1 is critical for NAADP action and is likely the long sought after target channel for NAADP.

show abstract

Kaposi's sarcoma-associated herpesvirus expresses an array of viral microRNAs in latently infected cells

Cai

Zhang

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

527

460

View full text Add to dashboard Cite

show abstract

Somatic Mutation, Genomic Variation, and Neurological Disease

Poduri

Evrony

Cai

et al. 2013

Science

515

439

View full text Add to dashboard Cite

Genetic mutations causing human disease are conventionally thought to be inherited through the germ line from one’s parents and present in all somatic (body) cells, except for most cancer mutations, which arise somatically. Increasingly, somatic mutations are being identified in diseases other than cancer, including neurodevelopmental diseases. Somatic mutations can arise during the course of prenatal brain development and cause neurological disease—even when present at low levels of mosaicism, for example—resulting in brain malformations associated with epilepsy and intellectual disability. Novel, highly sensitive technologies will allow more accurate evaluation of somatic mutations in neurodevelopmental disorders and during normal brain development.

show abstract

The imprinted H19 noncoding RNA is a primary microRNA precursor

Cai¹,

Cullen²

2007

RNA

559

422

View full text Add to dashboard Cite

Although H19 was the first imprinted noncoding transcript to be identified, the function of this conserved RNA has remained unclear. Here, we identify a 23-nucleotide microRNA derived from H19 that is endogenously expressed in human keratinocytes and neonatal mice and overexpressed in cells transfected with human or mouse H19 expression plasmids. These data demonstrate that H19 can function as a primary microRNA precursor and suggest that H19 expression results in the posttranscriptional downregulation of specific mRNAs during vertebrate development.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Xinjiang Cai

Human microRNAs are processed from capped, polyadenylated transcripts that can also function as mRNAs

Epstein–Barr Virus MicroRNAs Are Evolutionarily Conserved and Differentially Expressed

Somatic mutation in single human neurons tracks developmental and transcriptional history

Single-Neuron Sequencing Analysis of L1 Retrotransposition and Somatic Mutation in the Human Brain

Essential requirement for two-pore channel 1 in NAADP-mediated calcium signaling

Kaposi's sarcoma-associated herpesvirus expresses an array of viral microRNAs in latently infected cells

Somatic Mutation, Genomic Variation, and Neurological Disease

The imprinted H19 noncoding RNA is a primary microRNA precursor

Contact Info

Product

Resources

About