A role for PM19-Like 1 in seed dormancy in Arabidopsis

AbstractThe understanding of the genetic basis of grain dormancy in wheat has rapidly improved in the last few years, and a number of genes have been identified related to that trait. We recently identified the wheat genes TaPM19-A1 and -A2 and we have now taken the first step towards understanding the role of this class of genes in seeds. By investigating the Arabidopsis homologous PM19-Like 1 (PM19L1) we have found that it has a seed-specific expression pattern and, while its expression is higher in dormant than in non-dormant seeds, knock-out mutations produced seeds with increased dormancy. Not only primary dormancy, but also secondary dormancy in response to high temperature was increased by the loss-of-function. We have also examined the function of PM19L1 by localizing the PM19 protein primarily to the cotyledon cells in seeds, possibly in membranes. By investigating the co-expression network of this gene we have found that it is connected to a small group of abscisic acid (ABA)-induced seed maturation and storage-related genes. The function of PM19L1 represents a good opportunity to explore the interactions of key factors that can influence seed dormancy such as ABA, temperature and membrane properties.

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The Role of Anti-Müllerian Hormone in Testis Differentiation Reveals the Significance of the TGF-β Pathway in Reptilian Sex Determination

Genetics ◽

10.1534/genetics.119.302527 ◽

2019 ◽

Vol 213 (4) ◽

pp. 1317-1327 ◽

Cited By ~ 1

Author(s):

Yingjie Zhou ◽

Wei Sun ◽

Han Cai ◽

Haisheng Bao ◽

Yu Zhang ◽

...

Keyword(s):

Sex Determination ◽

Messenger Rna ◽

Sex Differentiation ◽

Sex Reversal ◽

Testicular Development ◽

Loss Of Function ◽

Specific Expression ◽

Male Sex ◽

Specific Expression Pattern ◽

Reptilian Species

Anti-Müllerian hormone (Amh, or Müllerian-inhibiting substance, Mis), a member of TGF-β superfamily, has been well documented in some vertebrates as initiator or key regulator in sexual development, and particularly in fish. However, its functional role has not yet been identified in reptiles. Here, we characterized the Amh gene in the Chinese soft-shelled turtle Pelodiscus sinensis, a typical reptilian species exhibiting ZZ/ZW sex chromosomes. The messenger RNA of Amh was initially expressed in male embryonic gonads by stage 15, preceding gonadal sex differentiation, and exhibited a male-specific expression pattern throughout embryogenesis. Moreover, Amh was rapidly upregulated during female-to-male sex reversal induced by aromatase inhibitor letrozole. Most importantly, Amh loss of function by RNA interference led to complete feminization of genetic male (ZZ) gonads, suppression of the testicular marker Sox9, and upregulation of the ovarian regulator Cyp19a1. Conversely, overexpression of Amh in ZW embryos resulted in female-to-male sex reversal, characterized by the formation of a testis structure, ectopic activation of Sox9, and a remarkable decline in Cyp19a1. Collectively, these findings provide the first solid evidence that Amh is both necessary and sufficient to drive testicular development in a reptilian species, P. sinensis, highlighting the significance of the TGF-β pathway in reptilian sex determination.

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The WOX family transcriptional regulator SlLAM1 controls compound leaf and floral organ development in Solanum lycopersicum

Journal of Experimental Botany ◽

10.1093/jxb/eraa574 ◽

2020 ◽

Author(s):

Chaoqun Wang ◽

Baolin Zhao ◽

Liangliang He ◽

Shaoli Zhou ◽

Ye Liu ◽

...

Keyword(s):

Phylogenetic Analysis ◽

Transcription Factors ◽

Fruit Size ◽

Floral Organ ◽

Organ Development ◽

Loss Of Function ◽

Specific Expression ◽

Floral Organ Development ◽

Compound Leaf ◽

Specific Expression Pattern

Abstract Plant specific WOX family transcription factors play important roles from embryogenesis to lateral organ development. The WOX1 transcription factors, belonging to the modern clade of WOX family, are found to regulate leaf blade outgrowth specifically in the mediolateral axis. However, the role of WOX1 in compound leaf development is still unknown. Phylogenetic analysis of the whole WOX family in tomato indicates that there are 10 members that represent the modern, intermediate, and ancient clades. Using phylogenetic analysis and a reverse genetic approach, we identified the modern clade SlLAM1 gene from tomato and analyzed its function and tissue specific expression pattern. Here, we show that knocking out SlLAM1 via CRISPR/Cas9-mediated genome editing led to narrow leaves, and reduced number of secondary leaflets. Overexpression of tomato SlLAM1 could rescue the defect of tobacco lam1 mutant. Anatomical and transcriptomic analyses demonstrated that floral organ development, fruit size, secondary leaflet initiation, and leaf complexity were altered due to loss-of-function of SlLAM1. These findings elucidate that tomato SlLAM1 plays an important role in the regulation of secondary leaflet initiation, in addition to its conserved function in blade expansion.

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The dyslexia susceptibility KIAA0319 gene shows a highly specific expression pattern during zebrafish development supporting a role beyond neuronal migration

10.1101/267617 ◽

2018 ◽

Author(s):

Monika Gostic ◽

Angela Martinelli ◽

Carl Tucker ◽

Zhengyi Yang ◽

Federico Gasparoli ◽

...

Keyword(s):

Brain Development ◽

Expression Pattern ◽

Neuronal Migration ◽

Neurodevelopmental Disorder ◽

Specific Expression ◽

Subsequent Work ◽

Knock Out ◽

Reading Abilities ◽

Similar Expression Pattern ◽

Specific Expression Pattern

AbstractDyslexia is a common neurodevelopmental disorder that affects reading abilities and is predicted to be caused by a significant genetic component. Very few genetic susceptibility factors have been identified so far and amongst those, KIAA0319 is a key candidate. KIAA0319 is highly expressed during brain development but its function remains poorly understood. Initial RNA-interference studies in rats suggested a role in neuronal migration whereas subsequent work with double knock-out mouse models for both Kiaa0319 and its paralogue Kiaa0319-like reported effects in the auditory system but not in neuronal migration. To further understand the role of KIAA0319 during neurodevelopment, we carried out an expression study of the zebrafish orthologue at different embryonic stages. We report particularly high gene expression during the first few hours of development. At later stages, expression becomes localised in well-defined structures such as the eyes, the telencephalon and the notochord, supporting a role for kiaa0319 that is not restricted to brain development. Surprisingly, kiaa0319-like, which generally shows a similar expression pattern, was not expressed in the notochord suggesting a role specific to kiaa0319 in this structure. This study contributes to our understanding of KIAA0319 function during embryonic development which might involve additional roles in the visual system and in the notochord. Such a specific spatiotemporal expression pattern is likely to be under the controlled of tightly regulated sequences. Therefore, these data provide a framework to interpret the effects of the dyslexia-associated genetic variants that reside in KIAA0319 non-coding regulatory regions.

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Mammary Specific Expression of Cre Recombinase Under the Control of an Endogenous MMTV LTR: A Conditional Knock-Out System

10.21236/ada391092 ◽

2000 ◽

Author(s):

Jennifer Czarneski

Keyword(s):

Cre Recombinase ◽

Specific Expression ◽

Knock Out ◽

Mmtv Ltr

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Identification and expression analysis of Dazl homologue in Cynops cyanurus

Zygote ◽

10.1017/s0967199421000538 ◽

2021 ◽

pp. 1-6

Author(s):

Yinjiao Zhao ◽

Ya Du ◽

Qinglan Ge ◽

Fang Yan ◽

Shu Wei

Keyword(s):

Phylogenetic Analysis ◽

Comparative Studies ◽

Rna Binding ◽

Rna Binding Protein ◽

Rna Recognition Motif ◽

Rna Recognition ◽

Specific Expression ◽

Recognition Motif ◽

Deleted In Azoospermia ◽

Specific Expression Pattern

Summary The Dazl (deleted in azoospermia-like) gene encodes an RNA-binding protein containing an RNA recognition motif (RRM) and a DAZ motif. Dazl is essential for gametogenesis in vertebrates. In this study, we report the cloning of Dazl cDNA from Cynops cyanurus. Ccdazl mRNA showed a germline-specific expression pattern as expected. Ccdazl expression gradually decreased during oogenesis, suggesting that it may be involved in oocyte development. Phylogenetic analysis revealed that the Ccdazl protein shares conserved motifs/domains with Dazl proteins from other species. Cloning of Ccdazl provides a new tool to carry out comparative studies of germ cell development in amphibians.

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Neuroendocrine prostate cancer has distinctive, non-prostatic HOX code that is represented by the loss of HOXB13 expression

Scientific Reports ◽

10.1038/s41598-021-82472-1 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Siyuan Cheng ◽

Shu Yang ◽

Yingli Shi ◽

Runhua Shi ◽

Yunshin Yeh ◽

...

Keyword(s):

Prostate Cancer ◽

Hox Genes ◽

Human Cancer ◽

Specific Expression ◽

Hox Gene ◽

Human Cancer Cell Lines ◽

All Trans Retinoic Acid ◽

Neuroendocrine Prostate Cancer ◽

Hox Code ◽

Specific Expression Pattern

AbstractHOX gene-encoded homeobox proteins control body patterning during embryonic development; the specific expression pattern of HOX genes may correspond to tissue identity. In this study, using RNAseq data of 1019 human cancer cell lines that originated from 24 different anatomic sites, we established HOX codes for various types of tissues. We applied these HOX codes to the transcriptomic profiles of prostate cancer (PCa) samples and found that the majority of prostate adenocarcinoma (AdPCa) samples sustained a prostate-specific HOX code whereas the majority of neuroendocrine prostate cancer (NEPCa) samples did not, which reflects the anaplastic nature of NEPCa. Also, our analysis showed that the NEPCa samples did not correlate well with the HOX codes of any other tissue types, indicating that NEPCa tumors lose their prostate identities but do not gain new tissue identities. Additionally, using immunohistochemical staining, we evaluated the prostatic expression of HOXB13, the most prominently changed HOX gene in NEPCa. We found that HOXB13 was expressed in both benign prostatic tissues and AdPCa but its expression was reduced or lost in NEPCa. Furthermore, we treated PCa cells with all trans retinoic acid (ATRA) and found that the reduced HOXB13 expression can be reverted. This suggests that ATRA is a potential therapeutic agent for the treatment of NEPCa tumors by reversing them to a more treatable AdPCa.

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Notch signaling coordinates ommatidial rotation in the Drosophila eye via transcriptional regulation of the EGF-Receptor ligand Argos

Scientific Reports ◽

10.1038/s41598-019-55203-w ◽

2019 ◽

Vol 9 (1) ◽

Author(s):

Yildiz Koca ◽

Benjamin E. Housden ◽

William J. Gault ◽

Sarah J. Bray ◽

Marek Mlodzik

Keyword(s):

Notch Signaling ◽

Cell Fate ◽

Planar Cell Polarity ◽

Egf Receptor ◽

Control Cell ◽

Loss Of Function ◽

Egfr Signaling ◽

Specific Expression ◽

Egfr Signaling Pathway ◽

Ommatidial Rotation

AbstractIn all metazoans, a small number of evolutionarily conserved signaling pathways are reiteratively used during development to orchestrate critical patterning and morphogenetic processes. Among these, Notch (N) signaling is essential for most aspects of tissue patterning where it mediates the communication between adjacent cells to control cell fate specification. In Drosophila, Notch signaling is required for several features of eye development, including the R3/R4 cell fate choice and R7 specification. Here we show that hypomorphic alleles of Notch, belonging to the Nfacet class, reveal a novel phenotype: while photoreceptor specification in the mutant ommatidia is largely normal, defects are observed in ommatidial rotation (OR), a planar cell polarity (PCP)-mediated cell motility process. We demonstrate that during OR Notch signaling is specifically required in the R4 photoreceptor to upregulate the transcription of argos (aos), an inhibitory ligand to the epidermal growth factor receptor (EGFR), to fine-tune the activity of EGFR signaling. Consistently, the loss-of-function defects of Nfacet alleles and EGFR-signaling pathway mutants are largely indistinguishable. A Notch-regulated aos enhancer confers R4 specific expression arguing that aos is directly regulated by Notch signaling in this context via Su(H)-Mam-dependent transcription.

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Tissue Distribution of ACE2 Protein in Syrian Golden Hamster (Mesocricetus auratus) and Its Possible Implications in SARS-CoV-2 Related Studies

Frontiers in Pharmacology ◽

10.3389/fphar.2020.579330 ◽

2021 ◽

Vol 11 ◽

Author(s):

Voddu Suresh ◽

Deepti Parida ◽

Aliva P. Minz ◽

Manisha Sethi ◽

Bhabani S. Sahoo ◽

...

Keyword(s):

Expression Pattern ◽

Golden Hamster ◽

Expression Patterns ◽

Mesocricetus Auratus ◽

Syrian Golden Hamster ◽

Surface Epithelium ◽

Specific Expression ◽

Tissue Specific ◽

Tissue Specific Expression ◽

Specific Expression Pattern

The Syrian golden hamster (Mesocricetus auratus) has recently been demonstrated as a clinically relevant animal model for SARS-CoV-2 infection. However, lack of knowledge about the tissue-specific expression pattern of various proteins in these animals and the unavailability of reagents like antibodies against this species hampers these models’ optimal use. The major objective of our current study was to analyze the tissue-specific expression pattern of angiotensin-converting enzyme 2, a proven functional receptor for SARS-CoV-2 in different organs of the hamster. Using two different antibodies (MA5-32307 and AF933), we have conducted immunoblotting, immunohistochemistry, and immunofluorescence analysis to evaluate the ACE2 expression in different tissues of the hamster. Further, at the mRNA level, the expression of Ace2 in tissues was evaluated through RT-qPCR analysis. Both the antibodies detected expression of ACE2 in kidney, small intestine, tongue, and liver. Epithelium of proximal tubules of kidney and surface epithelium of ileum expresses a very high amount of this protein. Surprisingly, analysis of stained tissue sections showed no detectable expression of ACE2 in the lung or tracheal epithelial cells. Similarly, all parts of the large intestine were negative for ACE2 expression. Analysis of tissues from different age groups and sex didn’t show any obvious difference in ACE2 expression pattern or level. Together, our findings corroborate some of the earlier reports related to ACE2 expression patterns in human tissues and contradict others. We believe that this study’s findings have provided evidence that demands further investigation to understand the predominant respiratory pathology of SARS-CoV-2 infection and disease.

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Genome-wide analysis of CrRLK1L genes and their expression profiling during fiber development in cotton

10.21203/rs.3.rs-44129/v1 ◽

2020 ◽

Author(s):

Dongyun Zuo ◽

Javaria Ashraf ◽

Hailiang Cheng ◽

Shang Liu ◽

Youping Zhang ◽

...

Keyword(s):

Stress Responses ◽

Plant Immunity ◽

Fiber Development ◽

The Other ◽

Element Analysis ◽

Specific Expression ◽

Group Iii ◽

Group I ◽

Genome Wide ◽

Specific Expression Pattern

Abstract Background: Catharanthus roseus receptor-like kinase 1-like (CrRLK1Ls) proteins play important roles in cell growth, plant morphogenesis, reproduction, hormone signaling, plant immunity and stress responses in Arabidopsis. However, not much information is available about their functions during cotton fiber development.Results: We identified a total of 125, 73 and 71 full-length putative CrRLK1L genes in G. hirsutum, G. arboreum and G. raimondii, which are much greater than that of the other plants. The phylogenetic and gene structure analysis divided the cotton CrRLK1L genes into six major groups, among which only group I and II contained AtCrRLK1Ls of Arabidopsis, suggesting that other groups (group III-VI) were expanded by gene duplication during cotton evolution. Genome collinearity analysis revealed that half of the At02 genes in G. hirsutum derived from A02 of G. arboreum, while the other half (GhCrRLK1L6 and GhCrRLK1L7) originated from Dt03 and Dt02 of G. raimondii, indicating segmental duplication between noncorresponding chromosomes during polyploidization of G. hirsutum. In addition, expression and cis-element analysis revealed that only 22 GhCrRLK1Ls showed specific expression pattern during fiber development which are mainly due to the presence of binding sites for NAC, MYB and WRKY transcription factors.Conclusions: This study provides a strong foundation to further explore the molecular mechanism of CrRLK1L genes during fiber development in upland cotton.

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One cell, one drop, one click: hybrid microfluidic mammalian single-cell isolation

10.1101/2020.01.24.908202 ◽

2020 ◽

Author(s):

Kenza Samlali ◽

Fatemeh Ahmadi ◽

Angela B.V. Quach ◽

Guy Soffer ◽

Steve C.C. Shih

Keyword(s):

User Interface ◽

Single Cells ◽

Electrode System ◽

Loss Of Function ◽

Precision Control ◽

Knock Out ◽

On Demand ◽

Complex Process ◽

Single Cell Isolation ◽

Hybrid Microfluidics

AbstractThe process of generating a stable knockout cell line is a complex process that can take several months to complete. In this work, we introduce a microfluidic method that is capable of isolating single cells, selecting successful edited clones, and expansion of these isoclones. Using a hybrid microfluidics method, droplets in channels can be individually addressed using a co-planar electrode system. In our hybrid microfluidic device, we show that we can trap single cells and subsequently encapsulate them on demand into pL-sized droplets. Furthermore, individual cells inside the droplet can be released from the traps or merged with other droplets by simply applying an electric potential to the electrodes that is actuated through a user interface. We use this high precision control to sort and to recover single isoclones to establish monoclonal cell lines, which is demonstrated with a heterozygous NCI-H1299 lung squamous cell population resulting from loss-of-function eGFP and RAF1 gene knock-out transfections.

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