The Plastid Genome of Najas flexilis: Adaptation to Submersed Environments Is Accompanied by the Complete Loss of the NDH Complex in an Aquatic Angiosperm

The division of life into producers and consumers is blurred by evolution. For example, eukaryotic phototrophs can lose the capacity to photosynthesize, although they may retain vestigial plastids that perform other essential cellular functions. Chrysophyte algae have undergone a particularly large number of photosynthesis losses. Here, we present a plastid genome sequence from a nonphotosynthetic chrysophyte, “Spumella” sp. NIES-1846, and show that it has retained a nearly identical set of plastid-encoded functions as apicomplexan parasites. Our transcriptomic analysis of 12 different photosynthetic and nonphotosynthetic chrysophyte lineages reveals remarkable convergence in the functions of these nonphotosynthetic plastids, along with informative lineage-specific retentions and losses. At one extreme,Cornospumella fuschlensisretains many photosynthesis-associated proteins, although it appears to have lost the reductive pentose phosphate pathway and most plastid amino acid metabolism pathways. At the other extreme,Paraphysomonaslacks plastid-targeted proteins associated with gene expression and all metabolic pathways that require plastid-encoded partners, indicating a complete loss of plastid DNA in this genus. Intriguingly, some of the nucleus-encoded proteins that once functioned in the expression of theParaphysomonasplastid genome have been retained. These proteins were likely to have been dual targeted to the plastid and mitochondria of the chrysophyte ancestor, and are uniquely targeted to the mitochondria inParaphysomonas. Our comparative analyses provide insights into the process of functional reduction in nonphotosynthetic plastids.

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The evolutionary fate of rpl32 and rps16 losses in the Euphorbia schimperi (Euphorbiaceae) plastome

Scientific Reports ◽

10.1038/s41598-021-86820-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Aldanah A. Alqahtani ◽

Robert K. Jansen

Keyword(s):

Ribosomal Protein ◽

Plastid Genome ◽

Eukaryotic Cell ◽

Complete Loss ◽

Important Process ◽

High Sequence Identity ◽

Genomic Changes ◽

Sequence Identity ◽

Nucleus Transfer ◽

Evolutionary Fate

AbstractGene transfers from mitochondria and plastids to the nucleus are an important process in the evolution of the eukaryotic cell. Plastid (pt) gene losses have been documented in multiple angiosperm lineages and are often associated with functional transfers to the nucleus or substitutions by duplicated nuclear genes targeted to both the plastid and mitochondrion. The plastid genome sequence of Euphorbia schimperi was assembled and three major genomic changes were detected, the complete loss of rpl32 and pseudogenization of rps16 and infA. The nuclear transcriptome of E. schimperi was sequenced to investigate the transfer/substitution of the rpl32 and rps16 genes to the nucleus. Transfer of plastid-encoded rpl32 to the nucleus was identified previously in three families of Malpighiales, Rhizophoraceae, Salicaceae and Passifloraceae. An E. schimperi transcript of pt SOD-1-RPL32 confirmed that the transfer in Euphorbiaceae is similar to other Malpighiales indicating that it occurred early in the divergence of the order. Ribosomal protein S16 (rps16) is encoded in the plastome in most angiosperms but not in Salicaceae and Passifloraceae. Substitution of the E. schimperi pt rps16 was likely due to a duplication of nuclear-encoded mitochondrial-targeted rps16 resulting in copies dually targeted to the mitochondrion and plastid. Sequences of RPS16-1 and RPS16-2 in the three families of Malpighiales (Salicaceae, Passifloraceae and Euphorbiaceae) have high sequence identity suggesting that the substitution event dates to the early divergence within Malpighiales.

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Investigating the functional link between TMEM165 and SPCA1

Biochemical Journal ◽

10.1042/bcj20190488 ◽

2019 ◽

Vol 476 (21) ◽

pp. 3281-3293 ◽

Cited By ~ 2

Author(s):

Elodie Lebredonchel ◽

Marine Houdou ◽

Hans-Heinrich Hoffmann ◽

Kateryna Kondratska ◽

Marie-Ange Krzewinski ◽

...

Keyword(s):

Subcellular Localization ◽

Complete Loss ◽

Protein Family ◽

Uncharacterized Protein ◽

Functional Link ◽

P Type

TMEM165 was highlighted in 2012 as the first member of the Uncharacterized Protein Family 0016 (UPF0016) related to human glycosylation diseases. Defects in TMEM165 are associated with strong Golgi glycosylation abnormalities. Our previous work has shown that TMEM165 rapidly degrades with supraphysiological manganese supplementation. In this paper, we establish a functional link between TMEM165 and SPCA1, the Golgi Ca2+/Mn2+ P-type ATPase pump. A nearly complete loss of TMEM165 was observed in SPCA1-deficient Hap1 cells. We demonstrate that TMEM165 was constitutively degraded in lysosomes in the absence of SPCA1. Complementation studies showed that TMEM165 abundance was directly dependent on SPCA1's function and more specifically its capacity to pump Mn2+ from the cytosol into the Golgi lumen. Among SPCA1 mutants that differentially impair Mn2+ and Ca2+ transport, only the Q747A mutant that favors Mn2+ pumping rescues the abundance and Golgi subcellular localization of TMEM165. Interestingly, the overexpression of SERCA2b also rescues the expression of TMEM165. Finally, this paper highlights that TMEM165 expression is linked to the function of SPCA1.

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Type B Interrupted Aorta in an Adult Patient

The Heart Surgery Forum ◽

10.1532/hsf98.2013309 ◽

2014 ◽

Vol 17 (2) ◽

pp. 80

Author(s):

Ahmet Ozkara ◽

Mehmet Ezelsoy ◽

Levent Onat ◽

Ilhan Sanisoglu

Keyword(s):

Cardiopulmonary Bypass ◽

Aortic Arch ◽

Collateral Circulation ◽

Neonatal Period ◽

Interrupted Aortic Arch ◽

Complete Loss ◽

Posterolateral Thoracotomy ◽

Type B ◽

Case Presentation ◽

Descending Aorta

Introduction: Interrupted aortic arch is a rare congenital malformation characterized by a complete loss of luminal continuity between the ascending and descending aorta. It is often diagnosed during the neonatal period.Case presentation: We presented a 51-year-old male patient with interrupted aortic arch type B who was treated successfully with posterolateral thoracotomy without using cardiopulmonary bypass.Conclusion: The prognosis for interrupted aortic arch depends on the associated congenital anomalies, but the outcome is usually very poor unless there is surgical treatment. Survival into adulthood depends on the development of collateral circulation.

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Faculty Opinions recommendation of Colistin resistance in Acinetobacter baumannii is mediated by complete loss of lipopolysaccharide production.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.6250959.6320057 ◽

2010 ◽

Author(s):

Lynn Silver

Keyword(s):

Acinetobacter Baumannii ◽

Complete Loss ◽

Colistin Resistance

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Chronic Ischemic Monomelic Neuropathy after Arteriovenous Fistula Creation: A Unique Presentation of Vascular Steal

Asploro Journal of Biomedical and Clinical Case Reports ◽

10.36502/2020/asjbccr.6203 ◽

2020 ◽

Vol 3 (2) ◽

pp. 147-150

Author(s):

Kaczynski RE ◽

Asaad Y ◽

Valentin-Capeles N ◽

Battista J

Keyword(s):

Arteriovenous Fistula ◽

Complete Loss ◽

Dialysis Access ◽

Loss Of Function ◽

Access Site ◽

Surgical Ligation ◽

Arteriovenous Access ◽

Vascular Steal ◽

Steal Syndrome

We discuss a case of a 58 year old male who presented for left upper extremity steal syndrome including ischemic monomelic neuropathy (IMN) 1.5 months after arteriovenous fistula creation. He presented after three surgical attempts to salvage his fistula with rest pain, complete loss of function with contracture of the 4th and 5th digits, and loss of sensation in the ulnar distribution for more than three weeks. At our institution, he underwent surgical ligation of the distal fistula and creation of a new fistula proximally, resulting in complete resolution of his vascular steal symptoms almost immediately despite the chronicity prior to surgical presentation. Our patient provides a unique perspective regarding dialysis access salvage versus patient quality of life. The patients’ functional status and pain levels should take precedence over salvage of an arteriovenous access site, and early ligation of the access should be completed prior to chronic IMN development. However, if a patient presents late along the IMN course, we recommend strong consideration of access ligation in order to attempt to regain the full neurovascular function of the extremity as we experienced in our patient.

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Najas flexilis: Maiz-Tome, L.

IUCN Red List of Threatened Species ◽

10.2305/iucn.uk.2016-1.rlts.t162310a78457107.en ◽

2015 ◽

Author(s):

Keyword(s):

Najas Flexilis

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Prevalence and Photobiology of Photosynthetic Dinoflagellate Endosymbionts in the Nudibranch Berghia stephanieae

Animals ◽

10.3390/ani11082200 ◽

2021 ◽

Vol 11 (8) ◽

pp. 2200

Author(s):

Ruben X. G. Silva ◽

Paulo Cartaxana ◽

Ricardo Calado

Keyword(s):

Food Deprivation ◽

Photosynthetic Efficiency ◽

Rapid Decrease ◽

Complete Loss ◽

Symbiotic Association ◽

Non Invasive ◽

Sea Slugs ◽

Non Destructive ◽

Over Time

Berghia stephanieae is a stenophagous sea slug that preys upon glass anemones, such as Exaiptasia diaphana. Glass anemones host photosynthetic dinoflagellate endosymbionts that sea slugs ingest when consuming E. diaphana. However, the prevalence of these photosynthetic dinoflagellate endosymbionts in sea slugs appears to be short-lived, particularly if B.stephanieae is deprived of prey that host these microalgae (e.g., during bleaching events impacting glass anemones). In the present study, we investigated this scenario, along with food deprivation, and validated the use of a non-invasive and non-destructive approach employing chlorophyll fluorescence as a proxy to monitor the persistence of the association between sea slugs and endosymbiotic photosynthetic dinoflagellates acquired through the consumption of glass anemones. Berghia stephanieae deprived of a trophic source hosting photosynthetic dinoflagellate endosymbionts (e.g., through food deprivation or by feeding on bleached E. diaphana) showed a rapid decrease in minimum fluorescence (Fo) and photosynthetic efficiency (Fv/Fm) when compared to sea slugs fed with symbiotic anemones. A complete loss of endosymbionts was observed within 8 days, confirming that no true symbiotic association was established. The present work opens a new window of opportunity to rapidly monitor in vivo and over time the prevalence of associations between sea slugs and photosynthetic dinoflagellate endosymbionts, particularly during bleaching events that prevent sea slugs from incorporating new microalgae through trophic interactions.

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