Lamin A‐mediated nuclear lamina integrity is required for proper ciliogenesis

The authors were alerted to the fact that the statistical analysis of cilia measurements lacked important information regarding sample size and pooling of datapoints. The authors therefore wish to add the following information to the Materials and Methods section to clarify the method used for the statistical analysis of cilia counts.Open in a separate windowFigure 2Lmna null mice display defective primary cilia in the skeletal muscle, kidney, uterus, and ovary.

• E(E) The statistical analysis of cilia counts from mouse tissues was based on a comparison of the pooled counts across 3 pairs of the control and Lmna^−/− mice.

Source data are available online for this figure.     

Structural basis of transport and inhibition of the Plasmodium falciparum transporter PfFNT

Subject Categories: Membranes & Trafficking, Microbiology, Virology & Host Pathogen Interaction, Structural Biology

We recently reported the first structures of the Plasmodium falciparum transporter PfFNT, both in the absence and presence of the inhibitor MMV007839 (Lyu et al, 2021). These structures indicated that PfFNT assembles as a pentamer. The bound MMV007839 was found in the middle of the elongated channel formed by each PfFNT protomer, adjacent to residue G107. MMV007839 exists in two tautomeric forms and can adopt either a cyclic hemiketal‐like structure or a linear vinylogous acid conformation (Fig ​(Fig3A).3A). Unfortunately, these two tautomeric forms could not be clearly distinguished based on the existing cryo‐EM data at 2.78 Å resolution. The bound MMV007839 inhibitor was reported as the cyclic hemiketal‐like form in the structure in Figs ​Figs3A3A and ​andF,F, and ​and4C,4C, Appendix Figs S10A and B, and S13 and in the online synopsis image.Open in a separate windowFigure 3Cryo‐EM structure of the PfFNT‐MMV007839 complex

1. Chemical structure of MMV007839. The compound can either be in cyclic hemiketal‐like or linear vinylogous acid tautomeric forms.
2. Cryo‐EM density map of pentameric PfFNT viewed from the parasite’s cytoplasm. Densities of the five bound MMV007839 within the pentamer are colored red. The five protomers of pentameric PfFNT are colored yellow, slate, orange, purple, and gray.
3. Ribbon diagram of the 2.18‐Å resolution structure of pentameric PfFNT‐MMV007839 viewed from the parasite’s cytoplasm. The five protomers of pentameric PfFNT are colored yellow, slate, orange, purple, and gray.
4. Ribbon diagram of pentameric PfFNT‐MMV007839 viewed from the extracellular side of the parasite. The five protomers of pentameric PfFNT are colored yellow, slate, orange, purple, and gray.
5. Ribbon diagram of pentameric PfFNT‐MMV007839 viewed from the parasite’s membrane plane. The five protomers of pentameric PfFNT are colored yellow, slate, orange, purple, and gray. Densities of the five bound MMV007839 are depicted as red meshes.
6. The MMV007839‐binding site of PfFNT. The bound MMV007839 is colored green. Density of the bound MMV007839 is depicted as black mesh. Residues involved in forming the inhibitor binding site are colored yellow. The hydrogen bonds are highlighted with black dotted lines.

Open in a separate windowFigure 4Structure of the central channel in the PfFNT‐MMV007839 protomer

• CA cartoon of the central channel formed within a PfFNT protomer. The channel contains one constriction site in this conformational state. Residues forming the constriction and the K35‐D103‐N108 and K177‐E229‐N234 triads are illustrated as sticks. Residues F94, I97, and L104, which form the first constriction site in the apo‐PfFNT structure, are also included in the figure.

Eric Beitz alerted us to the findings reported by his group that the linear vinylogous acid tautomer of MMV007839 constitutes the binding and inhibitory entity of PfFNT (Golldack et al, 2017).     

From the freezer to the clinic: Antifreeze proteins in the preservation of cells,tissues, and organs

Understanding the mechanisms by which natural anti‐freeze proteins protect cells and tissues from cold could help to improve the availability of donor organs for transplantation.

The first successful organ transplant in humans was performed in 1954 by Joseph Murray, who used a patient’s twin as a kidney donor. Murrays’ breakthrough paved the way for organ transplantation and the number of transplanted organs has grown ever since. For example, in 2017, a total of 139.024 solid organs—mostly kidney, liver, heart, lung, pancreas, and small bowel—were transplanted (Fig 1A). But this number only reflects 10% of the worldwide need; many patients still die of end‐stage organ failure while on a waiting list. The limited number of donor organs contributes only partially to this shortage. Many donor organs are not transplanted eventually owing to inefficient preservation techniques that shorten their extracorporeal lifetime. In fact, the percentage of donor organs that are unused is estimated to range from around 25% for kidneys and livers up to 70–80% for hearts and lungs (Giwa et al, 2017); Fig 1B).Open in a separate windowFigure 1Organ transplantation and preservability statusStatistics show a positive correlation between the duration of ex vivo preservation and the number of organ transplants. Number of solid organs transplanted in 2017 (A). Percentage of organs failed to be transplanted (B). Duration of solid organ ex vivo preservation in static cold storage (C). Sources: Data from the Global Observatory on Donation and Transplantation and (Parsons et al, 2014), (Guibert et al, 2011) and (Editorial: Buying time for transplants (2017))

Many donor organs are not transplanted eventually owing to inefficient preservation techniques that shorten their extracorporeal lifetime.

To address the shortage of donor organs and decrease the number of organs that go to waste, biobanks could efficiently store viable tissues and organs until transplantation. Yet, the current standard for ex vivo preservation of donor organs is static cold storage (4–8°C) which, depending on the organ, ensures viable conservation for only some hours; hearts are typically viable for a maximum of only 4 h (Fig 1C). In addition, this approach leads to hypothermic damage and to ischemia/reperfusion injury.Hence, there is an urgent need for strategies that prolong the viable preservation of donor organs. Two main strategies have emerged for cryopreservation and subzero storage, both of which cool tissues below the freezing point. While subzero storage just below 0°C may suffice for short‐term preservation, cryopreservation at −80°C or even lower temperatures is required for long‐term storage in biobanks. A proof‐of‐principle study already demonstrated that subzero preservation extended the preservation of rat hearts up to 24 h after collection (Amir et al, 2004); cryopreservation of whole hearts is currently not possible. The main reason is that lowering the temperature below the freezing point of water leads to ice formation, which causes cell damage and destroys tissues. One of the main challenges in biomedical research for organ transplantation is therefore finding non‐toxic and biocompatible antifreeze compounds that enable subzero storage and cryopreservation without causing tissue damage. An additional benefit is a larger time window to perform evaluation in terms of organ size and human leukocyte antigens matching and preparing the recipient patient to increase the chance of a successful transplantation.     

Posttranscriptional regulation of colonic epithelial repair by RNA binding protein IMP1/IGF2BP1

Correction to: EMBO Reports (2019) 20: e47074. DOI 10.15252/embr.201847074 | Published online 6 May 2019The authors noticed that the control and disease labels had been inverted in their data analysis resulting in publication of incorrect data in Figure 1C. The corrected figure is displayed below. This change affects the conclusions as detailed below. The authors apologize for this error and any confusion it may have caused.In the legend of 1C, change from, “Differential gene expression analysis of pediatric ileal CD patient samples (n = 180) shows increased (> 4‐fold) IMP1 expression as compared to non‐inflammatory bowel disease (IBD) pediatric samples (n = 43)”.Open in a separate windowFigure 1CCorrected Open in a separate windowFigure 1COriginal To, "Differential gene expression analysis of pediatric ileal CD patient samples (n = 180) shows decreased (> 4‐fold) IMP1 expression as compared to non‐inflammatory bowel disease (IBD) pediatric samples (n = 43)”.In abstract, change from, “Here, we report increased IMP1 expression in patients with Crohn''s disease and ulcerative colitis”.To, “Here, we report increased IMP1 expression in adult patients with Crohn''s disease and ulcerative colitis”.In results, change from, “Consistent with these findings, analysis of published the Pediatric RISK Stratification Study (RISK) cohort of RNA‐sequencing data 38 from pediatric patients with Crohn''s disease (CD) patients revealed that IMP1 is upregulated significantly compared to control patients and that this effect is specific to IMP1 (i.e., other distinct isoforms, IMP2 and IMP3, are not changed; Fig 1C)”.To, “Contrary to our findings in colon tissue from adults, analysis of published RNA‐sequencing data from the Pediatric RISK Stratification Study (RISK) cohort of ileal tissue from children with Crohn’s disease (CD) 38 revealed that IMP1 is downregulated significantly compared to control patients in the RISK cohort and that this effect is specific to IMP1 (i.e., other distinct isoforms, IMP2 and IMP3, are not changed; Fig 1C)”.In discussion, change from, “Indeed, we report that IMP1 is upregulated in patients with Crohn''s disease and ulcerative colitis and that mice with Imp1 loss exhibit enhanced repair following DSS‐mediated damage”.To “Indeed, we report that IMP1 is upregulated in adult patients with Crohn''s disease and ulcerative colitis and that mice with Imp1 loss exhibit enhanced repair following DSS‐mediated damage”.     

Experts in science communication: A shift from neutral encyclopedia to equal participant in dialogue

Even if the predominant model of science communication with the public is now based on dialogue, many experts still adhere to the outdated deficit model of informing the public. Subject Categories: Genetics, Gene Therapy & Genetic Disease, S&S: History & Philosophy of Science, S&S: Ethics

During the past decades, public communication of science has undergone profound changes: from policy‐driven to policy‐informing, from promoting science to interpreting science, and from dissemination to interaction (Burgess, 2014). These shifts in communication paradigms have an impact on what is expected from scientists who engage in public communication: they should be seen as fellow citizens rather than experts whose task is to increase scientific literacy of the lay public. Many scientists engage in science communication, because they see this as their responsibility toward society (Loroño‐Leturiondo & Davies, 2018). Yet, a significant proportion of researchers still “view public engagement as an activity of talking to rather than with the public” (Hamlyn et al, 2015). The highly criticized “deficit model” that sees the role of experts as educating the public to mitigate skepticism still persists (Simis et al, 2016; Suldovsky, 2016).Indeed, a survey we conducted among experts in training seems to corroborate the persistence of the deficit model even among younger scientists. Based on these results and our own experience with organizing public dialogues about human germline gene editing (Box 1), we discuss the implications of this outdated science communication model and an alternative model of public engagement, that aims to align science with the needs and values of the public.Box 1

The DNA‐dialogue project

The Dutch DNA‐dialogue project invited citizens to discuss and form opinions about human germline gene editing. During 2019 and 2020, this project organized twenty‐seven dialogues with professionals, such as embryologists and midwives, and various lay audiences. Different scenarios of a world in 2039 (https://www.rathenau.nl/en/making‐perfect‐lives/discussing‐modification‐heritable‐dna‐embryos) served as the starting point. Participants expressed their initial reactions to these scenarios with emotion‐cards and thereby explored the values they themselves and other participants deemed important as they elaborated further. Starting each dialogue in this way provides a context that enables everyone to participate in dialogue about complex topics such as human germline gene editing and demonstrates that scientific knowledge should not be a prerequisite to participate.An important example of “different” relevant knowledge surfaced during a dialogue with children between 8 and 12 years in the Sophia Children’s Hospital in Rotterdam (Fig 1). Most adults in the DNA‐dialogues accepted human germline gene modification for severe genetic diseases, as they wished the best possible care and outcome for their children. The children at Sophia, however, stated that they would find it terrible if their parents had altered something about them before they had been born; their parents would not even have known them. Some children went so far to say they would no longer be themselves without their genetic condition, and that their condition had also given them experiences they would rather not have missed.Open in a separate windowFigure 1 Children participating in a DNA‐dialogue meeting. Photographed by Levien Willemse.     

The COVID‐19 pandemic: agile versus blundering communication during a worldwide crisis: Important lessons for efficient communication to maintain public trust and ensure public safety

Governments’ measures to control the COVID‐19 pandemic and public reaction hold important lessons for science and risk communication in times of crisis.

The world is in the grips of a global pandemic, the end of which is not yet in sight. Nations struggle to deal with the severe health, economic and social impacts of COVID‐19 with varying success. Their ability to handle this crisis depends on many factors, some of which, such as the availability of vaccines, are variable, while others – geographical location or population density – are determined. More importantly though, public health infrastructures, political will and action, and clear communication have so far proved to be the most successful levers for coping with the pandemic. This article examines how political will and communication in particular have helped to alleviate the impact of the virus in some countries.

… public health infrastructures, political will and action, and clear communication have so far proved to be the most successful levers for coping with the pandemic.

News that a new virus had emerged in Wuhan, China, was just of fleeting interest for most people in December 2019. This changed rapidly: by March 2020, large parts of the world had gone into lockdown to curtail the rapid spread of SARS‐CoV‐2. Many governments issued more or less harsh restrictions on private contacts, travel and other freedoms, followed by easing these regulations during the summer, which precipitated new outbreaks in the fall along with mutations of the virus that triggered new restrictions; it is likely that this pattern will continue until a sufficient number of people are vaccinated to achieve herd immunity.COVID‐19 came “out of the blue”, hit a largely unprepared human population and has therefore affected human civilisation in an unprecedented manner (Fig 1). People are not only concerned about their health: as the pandemic continues, citizens also worry about the social, economic and psychological impacts. Even though vaccination programmes are under way, only a few countries will be able to achieve herd immunity by the summer; in the meantime, public acceptance for the ongoing restrictions of freedom are waning as the negative social and economic effects become more urgent. Thus, political action and planning along with efficient communication in particular are crucially important to ensure the public’s understanding of the situation and maintain acceptance for restrictive measure until enough vaccines become available. The antipodes in communication strategies were a mixture of evidence‐based messages, transparency, building confidence and open discussion of scientific uncertainty to gain and maintain public trust versus the unfettered spread of alternative facts, targeted disinformation and omission of important information that eventually eroded said trust.Open in a separate windowFigure 1Fear in times of COVID‐19An elderly pedestrian wearing a face mask due to the COVID‐19 pandemic, walks past graffiti depicting the subjects within famous artworks, in Glasgow on 2 September 2020 after the Scottish government imposed fresh restrictions on the city after a rise in cases of the novel coronavirus (© Andy Buchanan/AFP via Getty Images)

… political action and planning along with efficient communication in particular are crucially important to ensure the public’s understanding of the situation and maintain acceptance for restrictive measure…

     

Bacterial metabolism and pathogenesis intimate intertwining: time for metabolic modelling to come into action

We take a snapshot of the recent understanding of bacterial metabolism and the bacterial‐host metabolic interplay during infection, and highlight key outcomes and challenges for the practical implementation of bacterial metabolic modelling computational tools in the pathogenesis field.

Once relegated to the supply of energy and biosynthetic precursors, it is now indubitable that metabolism mediates most of physiological processes. In the context of bacterial–host interactions where virulence is the outcome (commonly termed bacterial pathogenesis) metabolism expands far beyond its canonical role in bacterial proliferation. In addition to all sorts of recognized molecular determinants or virulence factors (toxins, flagella, translocated effectors, adhesins, invasins, etc.), bacterial pathogens are equipped with specific metabolic traits to circumvent immune defenses and antimicrobial killing, thus facilitating colonization and proliferation within their hosts. As the implementation of high‐throughput technologies elevates the pathogenesis field to the era of big data, it concurrently creates considerable challenges for our ability to interpret large data sets and identify factors that impact infectious processes. Metabolic modelling is emerging as a powerful tool allowing the integration and coherent organization of large data sets into the context of biological networks providing non‐intuitive insights on biological systems that experimental analysis alone cannot provide. Here, we take a snapshot of the recent understanding of bacterial metabolism and the bacterial–host metabolic interplay during infection, and highlight key outcomes and challenges for the practical implementation of bacterial metabolic modelling computational tools in the pathogenesis field (summarized in Fig. 1).Open in a separate windowFig. 1Genome‐scale metabolic network reconstructions for bacterial pathogenesis: it is time to leave a mark. Fast evolving advances in the genomics and metabolomics fields facilitate metabolic modelling of priority pathogens, of polymicrobial communities where key pathogens may have a starring role, and of host–pathogen systems. Metabolic reconstructions can yield significant benefits when combined with various layers of multi‐omics information as part of integration strategies, further enriched by the predictive potential of machine learning computational tools. Such integrative view will guide our experimental work to understand key metabolic traits in bacteria–bacteria or bacteria–host interactions where virulence is the outcome. More importantly, we foresee that such integrative view will contribute to pave the way for developing new diagnostic, treatment and surveillance procedures, seeking for their ultimate positive impact in the clinical management of bacterial infectious diseases.     

The hSSB1 orthologue Obfc2b is essential for skeletogenesis but dispensable for the DNA damage response in vivo

We recently became aware of panel duplications in Supplementary Figures S6 and S7, due to pasting errors of similar flow cytometry images during figure preparation. This concerned the first two panels in the top row of Suppl. Fig S6A; second and third panel in the bottom row of Suppl. Fig S7B; and third and fourth panel in the bottom row of Suppl. Fig S7C.Furthermore, we noted a typographical error in Suppl. Fig S7B (top row, sixth plot), where the indicated percentage was wrongly given as 1.4%, instead of 1.1%. These errors did not change the results or the interpretation of the data. We deeply apologize to the scientific community for any confusion these errors may have caused. The updated appendix is published with this corrigendum.The original FlowJo analysis plots related to the affected figures are published as source data with this corrigendum. Please note that initial labelling of the experiments in these files referred to the official gene name Obfc2b informally as hSSB1, and Obfc2a‐shRNAs as ‘sh1’ and sh4’.Open in a separate windowFigure S6AOriginalOpen in a separate windowFigure S6ACorrectedOpen in a separate windowFigure S7BOriginalOpen in a separate windowFigure S7BCorrectedOpen in a separate windowFigure S7COriginalOpen in a separate windowFigure S7CCorrected     

Gamete attachment process revealed in flowering plant fertilization

Sex-possessing organisms perform sexual reproduction, in which gametes from different sexes fuse to produce offspring. In most eukaryotes, one or both sex gametes are motile, and gametes actively approach each other to fuse. However, in flowering plants, the gametes of both sexes lack motility. Two sperm cells (male gametes) that are contained in a pollen grain are recessively delivered via pollen tube elongation. After the pollen tube bursts, sperm cells are released toward the egg and central cells (female gametes) within an ovule (Fig. 1). The precise mechanism of sperm cell movement after the pollen tube bursts remains unknown. Ultimately, one sperm cell fuses with the egg cell and the other one fuses with the central cell, producing an embryo and an endosperm, respectively. Fertilization in which 2 sets of gamete fusion events occur, called double fertilization, has been known for over 100 y. The fact that each morphologically identical sperm cell precisely recognizes its fusion partner strongly suggests that an accurate gamete interaction system(s) exists in flowering plants.Open in a separate windowFigure 1.Illustration of the fertilization process in flowering plants. First, each pollen tube accesses an ovule containing egg and central cells. Next, the 2 sperm cells face the female gametes in the ovule after the pollen tube bursts. Finally, each sperm cell simultaneously fuses with either egg or central cell.     

Triple X Egyptian woman and a Down's syndrome offspring

The 47, XXX karyotype (triple X) has a frequency of 1 in 1000 female newborns. However, this karyotype is not usually suspected at birth or childhood. Female patients with a sex chromosome abnormality may be fertile. In patients with a 47, XXX cell line there appears to be an increased risk of a cytogenetically abnormal child but the extent of this risk cannot yet be determined; it is probably lower in the non-mosaic 47, XXX patient than the mosaic 46, XX/47, XXX one. We describe a new rare case of triple X woman and a Down''s syndrome offspring. The patient is 26 years of age. She is a housewife, her height is 160 cm and weight is 68 kg and her physical features and mentality are normal. She has had one pregnancy at the age of 25 years resulted in a girl with Down''s syndrome. The child had 47 chromosomes with trisomy 21 (47, XX, +21) Figure 1. The patient also has 47 chromosomes with a triple X karyotype (47, XX, +X) Figure 2. The patient''s husband (27 years old) is physically and mentally normal. He has 46 chromosomes with a normal XY karyotype (46, XY). There are neither Consanguinity between her parent''s nor she and her husband.Open in a separate windowFigure 1Karyotype 47, XX + 21 of the daughter of Triple X syndromeOpen in a separate windowFigure 2Karyptype 47, XX + X of the Down syndrome''s mother     

Testicular Sclerosing Sertoli Cell Tumor: A Case Report and Review of the Literature

Sertoli cell tumors are very rare testicular tumors, representing 0.4% to 1.5% of all testicular malignancies. They are subclassified as classic, large-cell calcifying, and sclerosing Sertoli cell tumors (SSCT) based on distinct clinical features. Only 42 cases of SSCTs have been reported in the literature. We present a case of a 23-year-old man diagnosed with SSCT.Key words: Testicular neoplasm, Sertoli cell tumor, Sclerosing Sertoli cell tumorA 23-year-old man was referred to the Cleveland Clinic Department of Urology (Cleveland, OH) for an incidentally detected right testicular mass. The mass was identified during a work-up for transient left testicular discomfort. His only notable medical history was nephrolithiasis. There was no personal or family history of testicular cancer or cryptorchidism. On physical examination, he was a well-nourished, well-masculinized young man without gynecomastia. Testicular examination revealed normal volume and consistency bilaterally without other relevant findings. Testicular ultrasonography demonstrated an 8 mm × 6 mm × 6 mm hypoechoic, solid mass in the posterior right testicle with peripheral flow on color Doppler (Figure 1).Open in a separate windowFigure 1Testicular ultrasound demonstrating an 8 mm × 6 mm × 6 mm hypoechoic, solid mass in the posterior right testicle (blue arrows).The remainder of the ultrasound examination yielded normal results. Lactic dehydrogenase, B-human chorionic gonadotropin, and α-fetoprotein levels were all within the normal range. After a thorough review of the options, the patient was then taken to the operating room for inguinal exploration. Intraoperative ultrasound confirmed a superficial 8-mm hypoechoic testis lesion. A whiteyellow, well-demarcated nodule was widely excised and a frozen section was sent to pathology for examination. The frozen section examination revealed the lesion to be a neoplasm with differential diagnosis including sclerosing Sertoli cell tumor (SSCT), adenomatoid tumor, and a variant of Leydig cell tumor. Because the final diagnosis could not be determined from frozen section, the decision was made to perform a right radical orchiectomy. Pathologic examination revealed a grossly unifocal, well-circumscribed, white, firm mass of 0.8 cm. Microscopically the lesion was composed of solid and hollow tubules and occasional anastomosing cords distributed within the hypocellular, densely collagenous stroma. Although the lesion was somewhat well circumscribed, entrapped seminiferous tubules with Sertoli-only cells were present within the tumor (Figure 2). Tumor cells had pale or eosinophilic cytoplasm with small and dark nuclei with inconspicuous nucleoli. The tumor was confined to the testis and margins were negative. A diagnosis of SSCT was reached, supported by positive immunostain results for steroidogenic factor 1, focal inhibin, and calretinin expression, and negative stain results for cytokeratin AE1/AE3 and epithelial membrane antigen in the tumor (Figure 3). The postoperative course was unremarkable. Computed tomography scan of the abdomen and pelvis and chest radiograph were negative for metastatic disease.Open in a separate windowFigure 2Low-power examination revealing a well-circumscribed tumor composed of solid and hollow tubules and occasional anastomosing cords distributed within the hypocellular, densely collagenous stroma. Hematoxylin and eosin stain, original magnification ×40. (B) High-power examination. Note entrapped seminiferous tubules lacking spermatogenesis. Hematoxylin and eosin stain, original magnification ×100.Open in a separate windowFigure 3Nuclear expression of steroidogenic factor 1 in the tumor as well as benign Sertoli cells in entrapped seminiferous tubules (original magnification ×200). (B) Focal calretinin expression in the tumor (inhibin had a similar staining pattern; original magnification ×100).     

A Large Number of Reviews on Physician Rating Websites May Reflect Reputation Management

BackgroundPhysicians with a large number of reviews and a high rating may be employing reputation management strategies. Specialists may be more likely than non-specialists to employ such strategies. This should be apparent in a study of online physician reviews on physician rating websites (PRW).MethodsUsing one physician rating website, we gathered orthopedic surgeon and family physician reviews. We measured Spearman correlations between the number of reviews and average numerical rating and used chi-squared to test threshold relationships.ResultsThere were very small negative Spear-man correlations between the number of online reviews and the average numerical rating for orthopedic surgeons (p= -0.097, p-value=<0.001) family medicine physicians (p= -0.170, p-value=<0.001; Figure 2). Physicians with more than 100 reviews had a greater average numerical rating than physicians with fewer than 50 reviews. Orthopedic surgeons are more likely than family medicine physicians to have a large number of reviews and average numerical rating greater than 3.Open in a separate windowFigure 2.Family medicine physicians average rating plotted against number of reviews.ConclusionThe small fraction of physician with a high number of reviews may be utilizing reputation management strategies, and this seems relatively specific to specialists rather than non-specialists. Level of Evidence: III     

Assessing Social – Ecological Trade-Offs to Advance Ecosystem-Based Fisheries Management

Modern resource management faces trade-offs in the provision of various ecosystem goods and services to humanity. For fisheries management to develop into an ecosystem-based approach, the goal is not only to maximize economic profits, but to consider equally important conservation and social equity goals. We introduce such a triple-bottom line approach to the management of multi-species fisheries using the Baltic Sea as a case study. We apply a coupled ecological-economic optimization model to address the actual fisheries management challenge of trading-off the recovery of collapsed cod stocks versus the health of ecologically important forage fish populations. Management strategies based on profit maximization would rebuild the cod stock to high levels but may cause the risk of stock collapse for forage species with low market value, such as Baltic sprat (Fig. 1A). Economically efficient conservation efforts to protect sprat would be borne almost exclusively by the forage fishery as sprat fishing effort and profits would strongly be reduced. Unless compensation is paid, this would challenge equity between fishing sectors (Fig. 1B). Optimizing equity while respecting sprat biomass precautionary levels would reduce potential profits of the overall Baltic fishery, but may offer an acceptable balance between overall profits, species conservation and social equity (Fig. 1C). Our case study shows a practical example of how an ecosystem-based fisheries management will be able to offer society options to solve common conflicts between different resource uses. Adding equity considerations to the traditional trade-off between economy and ecology will greatly enhance credibility and hence compliance to management decisions, a further footstep towards healthy fish stocks and sustainable fisheries in the world ocean.Open in a separate windowFigure 1Summary of multispecies management options in the Baltic.(A) Profit maximum. (B) Economic optimum while respecting sprat B_PA. (C) Equitable optimum while respecting sprat B_PA. Central numbers indicate total profits (million €/year) as well as an equity measure (in brackets). Area of each pie slice is relative to status quo values 2008-2010 (black circle), with error bars from sensitivity analysis.     

Dan Salah Tawfik (1955‐2021)—A giant of protein evolution

It was with great sorrow that we have learned of the untimely death of our friend, mentor, collaborator, and hero, Dan Tawfik. Danny was a true legend in the field of protein function and evolution. He had an incredibly creative mind and a breadth of knowledge—his interests spanned chemistry and engineering to genetics and evolution—that allowed him to see connections that the rest of us could not. More importantly, he made solving biochemical mysteries fun: He was passionate about his work, and his face lit up with joy whenever he talked about scientific topics that excited him (of which there were a lot). Conversations with Danny made us all smarter by osmosis.Danny’s own evolution in science began with physical organic chemistry and biochemistry. His PhD at the Weizmann Institute of Science, awarded in 1995, was on catalytic antibodies under the supervision of Zelig Eshhar and Michael Sela. It was followed by a highly productive period at the University of Cambridge’s Centre for Protein Engineering, first as a postdoctoral fellow with Alan Fersht and Tony Kirby, and then as a senior researcher. Among his many achievements during his time in Cambridge was the demonstration that off‐the‐shelf proteins—the serum albumins—could rival the best catalytic antibodies in accelerating the Kemp elimination reaction due to non‐specific medium effects. This work was an early example of unexpected catalytic promiscuity, and it sowed the seed for Danny’s later fascination with “esoteric, niche enzymology” that went far beyond convenient model systems.It was also in Cambridge where Danny first realized the power of the then new field of directed evolution, both for biotechnology and for elucidating evolutionary processes. He and Andrew Griffiths pioneered emulsion‐based in vitro compartmentalization. The idea of controlling biochemical reactions in separate aqueous droplets inspired emulsion PCR and next‐generation sequencing technologies, whereas Danny used it to solve a long‐standing problem in directed evolution; in vitro selection techniques had always been good at identifying ligand‐binding proteins, but compartmentalization finally enabled the directed evolution of ultra‐fast catalysts.Danny returned to Israel in 2001 to join the faculty of the Weizmann Institute of Science where his scientific trajectory further evolved, diverged, and even “drifted”. He developed new methods for enzyme engineering and applied his evolutionary insights into de novo protein design efforts. In this context, Danny’s interest was always focused on how proteins evolve, particularly the connection between promiscuity, conformational diversity, and evolvability. His depth of understanding underpinned both applied research, such as engineering enzymes to detoxify nerve agents, and fundamental research, such as the evolution of enzymes from non‐catalytic scaffolds.Through it all, Danny retained his sense of joy and wonder at the “beautiful aspects of Nature’s chemistry”. This includes his discovery of an exquisite molecular specificity mechanism mediated by a single, short H‐bond that enables microbes to scavenge phosphate in arsenate‐rich environments. In recent years, he deciphered the biosynthetic mechanism of dimethyl sulfide, “the smell of the sea”, and homed in on the interplay between the evolution of an enzyme, its host organism, and environmental complexity. His insights into how the first proteins emerged caused tremendous excitement in the field. He established the roots of two common enzyme lineages, the Rossmann and P‐loop NTPases, as simple polypeptides, and suggested ornithine as the first cationic amino acid. Prior to his death, he published the results of another tour de force: evidence that the first organisms to utilize oxygen may have appeared much earlier than thought.His work impacted many research fields, and he won many significant awards. Most recently, Danny was awarded the EMET Prize for Art, Science and Culture (2020), informally dubbed “Israel’s Nobel Prize”. He was an active and valued member of the EMBO community, having been elected in 2009, and, until his passing, served on the Editorial Advisory Board of EMBO Reports.Danny was also a superb science communicator. Both his research articles and reviews are a joy to read. What stood out just as much as his brilliance was his personality, as he embodied the Yiddish concept of being a true “mensch”. Danny was humble, was down‐to‐earth, and treated all his colleagues—including the most junior members of our research teams—as equals. He championed the careers of others, both those who worked directly for him and those who were lucky enough to be “just” his friends and collaborators. He believed in us even when we did not believe in ourselves, and he was always there to answer questions both scientific and professional. While he loved to share his own ideas, he would be just as excited about ours. Despite his own busy schedule, he always found the time to help others. He was also excellent company, with a great, very dry, sense of humor, and endless interesting stories, including from his own colorful life. In the days after his untimely death, an often‐repeated phrase was “he was my best friend”. Danny’s former group members have gone on to be highly successful in both industry and academia, including more than 15 former doctoral and postdoctoral researchers who are now faculty. The network of researchers Danny has trained, mentored, or influenced is broad, and this legacy is testament to his qualities as both a scientist and a person.Danny was born in Jerusalem to an Iraqi Jewish family, and his Arabic Jewish identity was important to him. He believed strongly in coexistence and peace, and very much valued the Arabic part of his heritage. In his own words: “I am an Israeli, a Jew, an Arab, but first and foremost a human being”. He would often speak of the achievements of his children with immense pride. Danny also had a passion for being outdoors, especially climbing and hiking—when the best discussions were often to be had (Fig ​(Fig1).1). One of the easiest ways to persuade him to come for a seminar, a collaborative visit, or a conference was to have access to high‐quality climbing in the area. He passed away in a tragic rock‐climbing accident, doing what he loved most outside of science. Our thoughts are with his partner Ita and his children, and we join the much broader community of friends, collaborators, and colleagues whose hearts are broken by his sudden loss.Open in a separate windowFigure 1Dan Salah Tawfik (1955–2021)Photo courtesy of Prof. Joel Mackay, The University of Sydney.     

Chromatin regulation and sumoylation in the inhibition of Ras-induced vulval development in C. elegans

Correction to: The EMBO Journal (2005) 24, 2613–2623. doi:10.1038/sj.emboj.7600726The authors have discovered an error in the above article.In our original paper, we inadvertently left out references for the ‘Essential gene'' column of Table 1New and previously studied synMuv genes