Radial glial cell

Radial glial cell
G-CSF receptor expression clearly delineates cells of radial glia in the embryonic murine brain. From Kirsch et al., 2008.[1]
Details
Identifiers
Latingliocytus radialis
THH3.11.08.3.01098
Anatomical terms of microanatomy

Radial glial cells, or radial glial progenitor cells (RGPs), are bipolar-shaped progenitor cells that are responsible for producing all of the neurons in the cerebral cortex. RGPs also produce certain lineages of glia, including astrocytes and oligodendrocytes.[2][3][4] Their cell bodies (somata) reside in the embryonic ventricular zone, which lies next to the developing ventricular system.

During development, newborn neurons use radial glia as scaffolds, traveling along the radial glial fibers in order to reach their final destinations.[3][5][6] Despite the various possible fates of the radial glial population, it has been demonstrated through clonal analysis that most radial glia have restricted, unipotent or multipotent, fates. Radial glia can be found during the neurogenic phase in all vertebrates (studied to date).[7]

The term "radial glia" refers to the morphological characteristics of these cells that were first observed: namely, their radial processes and their similarity to astrocytes, another member of the glial cell family.[8]

Structure

Müller glia

Müller glia are radial glial cells that are present in the developing, as well as the adult, retina. As in the cortex, Müller glia have long processes that span the entire width of the retina, from the basal cell layer to the apical layer. However, unlike cortical radial glia, Müller glia do not appear in the retina until after the first rounds of neurogenesis have occurred. Studies suggest that Müller glia can dedifferentiate into readily dividing neural progenitors in response to injury.[9]

Slcla3 in Bergmann Glia

The characteristics that truly set Müller glia apart from radial glia in other areas of the brain, is their possession of optical properties. The majority of the retina is actually largely light scattering, suggesting that Müller glia serve as the main fiber responsible for the relay of light to the photoreceptors in the rear of the retina. Properties that help Müller glia achieve this function include a limited number mitochondria (which are very light scattering), as well as a specialized arrangement of internal protein filaments.[9]

Müller glia are the predominant type of macroglia in the retina, so they take on many of the supportive functions that astrocytes and oligodendrocytes usually handle in the rest of the central nervous system.[9]

Bergmann glia

Micrograph showing Bergmann gliosis. H&E stain.

Bergmann glia (also known as radial epithelial cells, Golgi epithelial cells, or radial astrocytes) are unipolar astrocytes derived from radial glia that are intimately associated with Purkinje cells in the cerebellum.[10] Since bergmann glia appear to persist in the cerebellum, and perform many of the roles characteristic of astrocytes, they have also been called "specialized astrocytes."[9] Bergmann glia have multiple radial processes that extend across the molecular layer of the cerebellar cortex and terminate at the pial surface as a bulbous endfoot.[11] Bergmann glial cells assist with the migration of granule cells, guiding the small neurons from the external granular layer down to the internal granular layer along their extensive radial processes.[12][13] Besides their role in early development of the cerebellum, Bergmann glia are also required for synaptic pruning.[14] Following Purkinje cell death induced by CNS injury, Bergmann glia undergo extensive proliferative changes so as to replace lost or damaged tissue in a process known as gliosis.[15][16]

Development

Radial glial cells originate from the transformation of neuroepithelial cells that form the neural plate during neurogenesis in early embryonic development.[8][9][17] This process is mediated through the down-regulation of epithelium-related protein expression (such as tight junctions) and an up-regulation of glial-specific features such as glycogen granules, the astrocyte glutamate aspartate transporter (GLAST), the intermediate filament vimentin, and, in some instances, including humans, glial fibrillary acidic protein (GFAP).[7]

After this transition, radial glia retain many of the original characteristics of neuroepithelial cells including: their apical-basal polarity, their position along the lateral ventricles of the developing cortex, and the phasic migration of their nuclei depending on their location with the cell cycle (termed “interkinetic nuclear migration”).[9][18][19]

Function

Progenitors

Stages of neuronal development in the fetal cerebral cortex from radial glial cells
Interneuron-radial glial interactions in the developing cerebral cortex

Radial glia are now recognized as key progenitor cells in the developing nervous system. During the late stages of neurogenesis, radial glial cells divide asymmetrically in the ventricular zone, generating a new radial glial cell, as well as a postmitotic neuron or an intermediate progenitor (IPC) daughter cell. Intermediate progenitor cells then divide symmetrically in the subventricular zone to generate neurons.[18] Local environmental cues such as Notch and fibroblast growth factor (FGF) signaling, developmental period, and differing abilities of radial glia to respond to environmental cues have all been shown to influence the type of radial glia and radial glia-derived daughter cells that will be produced. FGF and Notch signaling regulate the proliferation of radial glia and the rate of neurogenesis, which affects the surface area expansion of the cerebral cortex and its ability to form surface convolutions known as gyri (see gyrification).[9][20][21] Radial glial cells show high levels of calcium transient activity, which is transmitted between RGCs in the ventricular zone and along the radial fibers bidirectionally to/from the cortical plate.[22][23] The calcium activity is thought to promote RGC proliferation and could be involved in radial communication before synapses are present in the brain. Additionally, recent evidence suggests that cues from the external sensory environment can also influence the proliferation and neural differentiation of radial glia.[9][24]

At the conclusion of cortical development, most radial glia lose their attachment to the ventricles, and migrate towards the surface of the cortex, where, in mammals, most will become astrocytes during the process of gliogenesis.[18]

While it has been suggested that radial glia most likely give rise to oligodendrocytes, through the generation of oligodendrocyte progenitor cells (OPCs), and OPCs can be generated from radial glial cells in vitro, more evidence is yet needed to conclude whether this process also occurs in the developing brain.[18][25]

Recently, radial glia that exclusively generate upper-layer cortical neurons have also been discovered.[8] Since upper cortical layers have expanded greatly in recent evolution, and are associated with higher-level information processing and thinking, radial glia have been implicated as important mediators of brain evolution.[26]

Migration Pattern

The best characterized and first widely accepted function of radial glia is their role as scaffolds for neuronal migration in the cerebral and cerebellar cortexes. This role can be easily visualized using the electron microscope or high-resolution time-lapse microscopy, through which neurons can be seen tightly wrapped around radial glia as they travel upwards through the cortex.[8] Additional evidence suggests that many neurons may move between neighboring radial glial fibers during migration.[9]

While excitatory neuronal migration is largely radial, inhibitory, GABAergic neurons have been shown to undergo tangential migration. Tangentially migrating neurons also appear to initiate contact with radial glial fibers in the developing cortex of ferrets, implicating radial glial cells in both of these forms of migration.[9]

As radial glia seem to differentiate late in spinal cord development, near the onset of gliogenesis, it is unclear whether they are involved in spinal cord neurogenesis or migration.[8]

Compartmentalization

Radial glia have also been implicated in forming boundaries between different axonal tracts and white matter areas of the brain.[8][27]

Clinical significance

As radial glia serve as the primary neural and glial progenitors in the brain, as well as being crucial for proper neuronal migration, defects in radial glial function can have profound effects in the development of the nervous system.

Mutations in either Lis1 or Nde1, essential proteins for radial glial differentiation and stabilization, cause the associated neurodevelopmental diseases Lissencephaly and microlissencephaly (which literally translate to “smooth brain”). Patients with these diseases are characterized by a lack of cortical folds (sulci and gyri) and reduced brain volume. Extreme cases of Lissencephaly cause death a few months after birth, while patients with milder forms may experience mental retardation, difficulty balancing, motor and speech deficits, and epilepsy.[8]

Death of neural progenitor cells has recently been linked the mosquito-borne virus, Zika.[28] Epidemiological evidence indicates infection of the embryo within the first two trimesters of pregnancy has potential to cause fetal birth defects and microcephaly,[29] possibly due to the death of progenitor cells. Further, mutations in microcephaly associated genes which encode proteins such as WDR62 can lead to radial glial depletion during brain development which ultimately leads to a smaller brain size and mental disabilities. [30]

History

Camillo Golgi, using his silver staining technique (later deemed the Golgi method), first described radially oriented cells spanning from the central canal to the outer surface of the embryonic chick spinal cord, in 1885.[31]

Using the Golgi method, Giuseppe Magini then studied the mammalian fetal cerebral cortex in 1888, confirming the similar presence of elongated radial cells in the cortex (also described by Kölliker just before him), and observing “various varicosities or swellings” on the radial fibers. Intrigued, Magini also observed that the size and number of these varicosities increased later in development, and were absent in the adult nervous system. Based on these findings, Magini then hypothesized that these varicosities could be developing neurons. Using a combination Golgi and hematoxylin staining method, Magini was able to identify these varicosities as cells, some of which were very closely associated with the radial fibers.[31]

Additional early works that were important in elucidating the identity and function of radial glia, were completed by Ramón y Cajal, who first suggested that the radial cells were a type of glia through their similarities to astrocytes;[8] and Wilhelm His, who also proposed the idea that growing axons may use radial cells for orientation and guidance during development.[31]

Despite the initial period of interest in radial glia, little additional information was learned about these cells until the electron microscope and immunohistochemistry became available some 60 years later.[31]

See also

List of distinct cell types in the adult human body

References

  1. ^ Kirsch F, Krüger C, Schneider A (March 2008). "The receptor for granulocyte-colony stimulating factor (G-CSF) is expressed in radial glia during development of the nervous system". BMC Developmental Biology. 8: 32. doi:10.1186/1471-213X-8-32. PMC 2329616. PMID 18371196.
  2. ^ Beattie, R; Hippenmeyer, S (December 2017). "Mechanisms of radial glia progenitor cell lineage progression". FEBS Letters. 591 (24): 3993–4008. doi:10.1002/1873-3468.12906. PMC 5765500. PMID 29121403.
  3. ^ a b Rakic P (October 2009). "Evolution of the neocortex: a perspective from developmental biology". Nature Reviews. Neuroscience. 10 (10): 724–35. doi:10.1038/nrn2719. PMC 2913577. PMID 19763105.
  4. ^ Noctor SC, Flint AC, Weissman TA, Dammerman RS, Kriegstein AR (February 2001). "Neurons derived from radial glial cells establish radial units in neocortex". Nature. 409 (6821): 714–20. Bibcode:2001Natur.409..714N. doi:10.1038/35055553. PMID 11217860. S2CID 3041502.
  5. ^ Rakic P (May 1972). "Mode of cell migration to the superficial layers of fetal monkey neocortex". The Journal of Comparative Neurology. 145 (1): 61–83. doi:10.1002/cne.901450105. PMID 4624784. S2CID 41001390.
  6. ^ Shohayeb B, et al. (October 2021). "Conservation of neural progenitor identity and the emergence of neocortical neuronal diversity". Seminars in Cell and Developmental Biology. 118 (118): 4–13. doi:10.1016/j.semcdb.2021.05.024. PMID 34083116. S2CID 235336596.
  7. ^ a b Malatesta P, Appolloni I, Calzolari F (January 2008). "Radial glia and neural stem cells". Cell and Tissue Research. 331 (1): 165–78. doi:10.1007/s00441-007-0481-8. PMID 17846796. S2CID 1903664.
  8. ^ a b c d e f g h Barry DS, Pakan JM, McDermott KW (January 2014). "Radial glial cells: key organisers in CNS development". The International Journal of Biochemistry & Cell Biology. 46: 76–9. doi:10.1016/j.biocel.2013.11.013. hdl:2262/68379. PMID 24269781.
  9. ^ a b c d e f g h i j Sild M, Ruthazer ES (June 2011). "Radial glia: progenitor, pathway, and partner". The Neuroscientist. 17 (3): 288–302. doi:10.1177/1073858410385870. PMID 21558559. S2CID 1817598.
  10. ^ Verkhratsky, Alexei; Butt, Arthur M. (2013). Glial Physiology and Pathophysiology. John Wiley and Sons, Inc. ISBN 9780470978535.
  11. ^ Komine O, Nagaoka M, Watase K, Gutmann DH, Tanigaki K, Honjo T, Radtke F, Saito T, Chiba S, Tanaka K (November 2007). "The monolayer formation of Bergmann glial cells is regulated by Notch/RBP-J signaling". Developmental Biology. 311 (1): 238–50. doi:10.1016/j.ydbio.2007.08.042. PMID 17915208.
  12. ^ Rubenstein, John; Rakic, Pasko (2013). Cellular Migration and Formation of Neuronal Connections: Comprehensive Developmental Neuroscience. Elsevier Science and Technology. ISBN 9780123972668.
  13. ^ Sanes DH, Reh TA, Harris WA (2005). Development of the Nervous System. Elsevier Science and Technology. ISBN 9780126186215.
  14. ^ "Bergmann Glial Cell". 14 Oct 2011. Retrieved 10 September 2014.
  15. ^ Sofroniew MV (November 2014). "Astrogliosis". Cold Spring Harbor Perspectives in Biology. 7 (2): a020420. doi:10.1101/cshperspect.a020420. PMC 4315924. PMID 25380660.
  16. ^ Catherine., Haberland (2007). Clinical neuropathology : text and color atlas. New York: Demos. ISBN 9781934559529. OCLC 166267295.
  17. ^ Shohayeb B, et al. (October 2021). "Conservation of neural progenitor identity and the emergence of neocortical neuronal diversity". Seminars in Cell and Developmental Biology. 118 (118): 4–13. doi:10.1016/j.semcdb.2021.05.024. PMID 34083116. S2CID 235336596.
  18. ^ a b c d Kriegstein A, Alvarez-Buylla A (2009). "The glial nature of embryonic and adult neural stem cells". Annual Review of Neuroscience. 32: 149–84. doi:10.1146/annurev.neuro.051508.135600. PMC 3086722. PMID 19555289.
  19. ^ Shohayeb B, et al. (October 2021). "Conservation of neural progenitor identity and the emergence of neocortical neuronal diversity". Seminars in Cell and Developmental Biology. 118 (118): 4–13. doi:10.1016/j.semcdb.2021.05.024. PMID 34083116. S2CID 235336596.
  20. ^ Rash BG, Lim HD, Breunig JJ, Vaccarino FM (October 2011). "FGF signaling expands embryonic cortical surface area by regulating Notch-dependent neurogenesis". The Journal of Neuroscience. 31 (43): 15604–17. doi:10.1523/jneurosci.4439-11.2011. PMC 3235689. PMID 22031906.
  21. ^ Rash BG, Tomasi S, Lim HD, Suh CY, Vaccarino FM (June 2013). "Cortical gyrification induced by fibroblast growth factor 2 in the mouse brain". The Journal of Neuroscience. 33 (26): 10802–14. doi:10.1523/jneurosci.3621-12.2013. PMC 3693057. PMID 23804101.
  22. ^ Weissman TA, Riquelme PA, Ivic L, Flint AC, Kriegstein AR (September 2004). "Calcium waves propagate through radial glial cells and modulate proliferation in the developing neocortex". Neuron. 43 (5): 647–61. doi:10.1016/j.neuron.2004.08.015. PMID 15339647. S2CID 7094565.
  23. ^ Rash BG, Ackman JB, Rakic P (February 2016). "Bidirectional radial Ca(2+) activity regulates neurogenesis and migration during early cortical column formation". Science Advances. 2 (2): e1501733. Bibcode:2016SciA....2E1733R. doi:10.1126/sciadv.1501733. PMC 4771444. PMID 26933693.
  24. ^ Sharma P, Cline HT (November 2010). "Visual activity regulates neural progenitor cells in developing xenopus CNS through musashi1". Neuron. 68 (3): 442–55. doi:10.1016/j.neuron.2010.09.028. PMC 3005332. PMID 21040846.
  25. ^ Mo Z, Zecevic N (April 2009). "Human fetal radial glia cells generate oligodendrocytes in vitro". Glia. 57 (5): 490–8. doi:10.1002/glia.20775. PMC 2644732. PMID 18814269.
  26. ^ "Scripps Research Neuroscientists Find Brain Stem Cells that May Be Responsible for Higher Functions, Bigger Brains". Scripps Research Institute. Retrieved 1 March 2014.
  27. ^ Steindler DA (1993). "Glial boundaries in the developing nervous system". Annual Review of Neuroscience. 16: 445–70. doi:10.1146/annurev.ne.16.030193.002305. PMID 8460899.
  28. ^ Tang H, Hammack C, Ogden SC, Wen Z, Qian X, Li Y, Yao B, Shin J, Zhang F, Lee EM, Christian KM, Didier RA, Jin P, Song H, Ming GL (May 2016). "Zika Virus Infects Human Cortical Neural Progenitors and Attenuates Their Growth". Cell Stem Cell. 18 (5): 587–90. doi:10.1016/j.stem.2016.02.016. PMC 5299540. PMID 26952870.
  29. ^ Mlakar J, Korva M, Tul N, Popović M, Poljšak-Prijatelj M, Mraz J, Kolenc M, Resman Rus K, Vesnaver Vipotnik T, Fabjan Vodušek V, Vizjak A, Pižem J, Petrovec M, Avšič Županc T (March 2016). "Zika Virus Associated with Microcephaly". The New England Journal of Medicine. 374 (10): 951–8. doi:10.1056/NEJMoa1600651. PMID 26862926.
  30. ^ Shohayeb, B, et al. (January 2020). "The association of microcephaly protein WDR62 with CPAP/IFT88 is required for cilia formation and neocortical development". Human Molecular Genetics. 29 (2): 248–263. doi:10.1093/hmg/ddz281. PMID 31816041.
  31. ^ a b c d Bentivoglio M, Mazzarello P (July 1999). "The history of radial glia". Brain Research Bulletin. 49 (5): 305–15. doi:10.1016/s0361-9230(99)00065-9. PMID 10452351. S2CID 26003944.

Read other articles:

Djoko Subroto

Djoko Subroto Informasi pribadiLahir19 Januari 1947 (umur 77)Kediri, Jawa TimurSuami/istriNy. Ratna Ariati WahyunaniAlma materAkademi Militer (1970)Karier militerPihak IndonesiaDinas/cabang TNI Angkatan DaratMasa dinas1970 – 2002Pangkat Mayor Jenderal TNISatuanInfanteriSunting kotak info • L • B Mayor Jenderal TNI (Purn.) Djoko Subroto S.Ip., (lahir 19 Januari 1947) adalah purnawirawan perwira tinggi TNI Angkatan Darat dan Alumni Akademi Militer (Akmil), Magelan...

 

Minyak kelapa

Minyak kelapa (Inggris: coconut oil) adalah minyak nabati yang diekstrak dari daging buah kelapa (spesies: Cocos nucifera). Berdasarkan teknik ekstraksinya, minyak kelapa bisa dikelompokkan atas tiga jenis: Minyak Kelapa Virgin (Virgin Coconut Oil - VCO), Minyak Kelapa Non-RBD, dan Minyak Kelapa RBD (Refine, Bleach, Deodorize). Minyak Kelapa Virgin (Virgin Coconut Oil) Minyak kelapa virgin (VCO) adalah minyak kelapa yang diperoleh dengan ekstraksi atau pengempaan pada suhu tidak lebih dari 1...

 

Matthew Boulton (pemeran)

Matthew BoultonBoulton dalam The Woman in Green (1945)Lahir(1893-01-20)20 Januari 1893Lincoln, Lincolnshire, Britania RayaMeninggal10 Februari 1962(1962-02-10) (umur 69)Los Angeles, California, Amerika SerikatPekerjaanPemeranTahun aktif1927–1953Suami/istriRuth Dockray (m. 19??) [1] Matthew Boulton (20 Januari 1893 – 10 Februari 1962) adalah seorang pemeran karakter panggung dan film Britania Raya, yang seringkali memerankan perwira polisi dan perwira milit...

Cross-country skiing at the 1992 Winter Olympics – Women's 30 kilometre freestyle

Women's 30 kilometre freestyleat the XVI Olympic Winter GamesVenueLes SaisiesDates21 FebruaryCompetitors57 from 19 nationsWinning time1:22:30.1Medalists Stefania Belmondo Italy Lyubov Yegorova Unified Team Yelena Välbe Unified Team← 19881994 → Cross-country skiing at the1992 Winter Olympics5 kmwomen10 kmmenPursuitmenwomen15 kmwomen30 kmmenwomen50 kmmenRelaymenwomenvte The women's 30 kilometre freestyle cross-country skiing competition at the 199...

 

Pluto (manga)

PlutoGenreMystery[1]Fiksi ilmiah[1]Thriller[1] MangaPengarangNaoki UrasawaTakashi NagasakiIlustratorNaoki UrasawaPenerbitShogakukanPenerbit bahasa InggrisNA Viz MediaMajalahBig Comic OriginalDemografiSeinenTerbit5 September, 2003 – 4 April, 2009Volume8 Animasi web orisinalProduserGENCO, Tezuka ProductionsStudioStudio M2PelisensiNetflixTayang2023  Portal anime dan manga Pluto adalah sebuah seri manga asal Jepang yang ditulis dan diilustrasikan oleh Naoki Uras...

 

Rede Bandeirantes

Rede Bandeirantes de TelevisãoJenisBroadcast television networkMerekBandNegaraBrasilJangkauanTerestrial dan melalui sinyal satelit yang tersedia di Brasil, dan melalui kabel secara internasional.Didirikan1967 oleh João Jorge SaadSloganOlho na tela, olho na BandMarkasSão PauloPemilikGrupo Bandeirantes de ComunicaçãoTanggal luncur13 Mei 1967Situs resmiband.com.br/tv Logo pertama Rede Bandeirantes (1967-1982) Rede Bandeirantes ( Pengucapan Portugis: [ˈʁedʒi bɐ̃dejˈɾɐ̃tʃis] , Bande...

Germaine de Staël

Germaine de Staël Germaine de Staël adalah seorang sastrawan yang menulis tentang sejarah Prancis.[1] Germaine lahir pada tanggal 22 April 1766 dan wafat pada tanggal 14 Juli 1817. Ia adalah salah satu sastrawan pada masa akhir abad ke-18 dan awal abad ke-19 Masehi yang mempelopori romantisisme di Prancis dan mempengaruhi genre sastra Eropa.[2] Germaine adalah pendukung paham liberalisme, Revolusi Prancis, dan monarki konstitusional. Ia turut serta dalam perpolitikan Prancis...

 

تحليل نظم

هذه المقالة بحاجة لصندوق معلومات. فضلًا ساعد في تحسين هذه المقالة بإضافة صندوق معلومات مخصص إليها. يفتقر محتوى هذه المقالة إلى الاستشهاد بمصادر. فضلاً، ساهم في تطوير هذه المقالة من خلال إضافة مصادر موثوق بها. أي معلومات غير موثقة يمكن التشكيك بها وإزالتها. (يناير 2022) تحليل ا...

 

Robin Hood. Il principe dei ladri

Robin Hood. Il principe dei ladriTitolo originaleRobin des bois. Le Prince des voleurs AutoreAlexandre Dumas 1ª ed. originale1872 1ª ed. italiana2010 Genereromanzo Sottogenerestorico Lingua originalefrancese Seguito daRobin Hood il proscritto Modifica dati su Wikidata · Manuale Robin Hood. Il principe dei ladri (Robin des bois: Le Prince des voleurs) è un romanzo storico attribuito ad Alexandre Dumas e pubblicato postumo nel 1872. Si tratta di una reinterpretazione della storia e del...

Синелобый амазон

Синелобый амазон Научная классификация Домен:ЭукариотыЦарство:ЖивотныеПодцарство:ЭуметазоиБез ранга:Двусторонне-симметричныеБез ранга:ВторичноротыеТип:ХордовыеПодтип:ПозвоночныеИнфратип:ЧелюстноротыеНадкласс:ЧетвероногиеКлада:АмниотыКлада:ЗавропсидыКласс:Пт�...

 

We Alright

For the Ilse DeLange radio single We're Alright, see Incredible (Ilse DeLange album). 2014 single by Young Money featuring Euro, Birdman and Lil WayneWe AlrightSingle by Young Money featuring Euro, Birdman and Lil Waynefrom the album Young Money: Rise of an Empire ReleasedJanuary 22, 2014GenreHip hopLength5:12LabelYoung MoneyCash MoneyRepublicSongwriter(s)Eufradis RodriguezBryan WilliamsDwayne CarterSam GumbleyProducer(s)S-XYoung Money singles chronology Tapout (2013) We Alright (2014) Tr...

 

Artur Jędrzejczyk

Artur Jędrzejczyk Artur Jędrzejczyk dengan Legia Warsawa. 2011Informasi pribadiNama lengkap Artur JędrzejczykTanggal lahir 4 November 1987 (umur 36)Tempat lahir Dębica, PolandiaTinggi 189 cm (6 ft 2 in)Posisi bermain BekInformasi klubKlub saat ini Legia WarsawNomor 55Karier senior*Tahun Tim Tampil (Gol)2017 – Legia Warsaw 36 (1)Tim nasional2010 – Polandia 37 (3) * Penampilan dan gol di klub senior hanya dihitung dari liga domestik Artur Jędrzejczyk (lahir 4 Novem...

Magsaysay, Davao del Sur

Peta menunjukan lokasi Magsaysay Magsaysay adalah munisipalitas yang terletak di provinsi Davao del Sur, Filipina. Pada tahun 2010, munisipalitas ini memiliki populasi sebesar 42.170 jiwa atau 7.848 rumah tangga. Pembagian wilayah Secara administratif Magsaysay terbagi menjadi 22 barangay, yaitu: Bacungan Balnate Barayong Blocon Dalawinon Dalumay Glamang Kanapulo Kasuga Lower Bala Mabini Malawanit Malongon New Ilocos Poblacion San Isidro San miguel Tacul Tagaytay Upper Bala Maibo New Opon Pra...

 

National Iwi Chairs Forum

New Zealand organisation Iwi leaders and the governor-general, Dame Cindy Kiro, and vice-regal consort, Richard Davies, at the 2023 Matariki dinner at Government House, Wellington, on 14 July 2023 The National Iwi Chairs Forum is an entity founded in 2005 made up of the chairpersons of 71 iwi groups in New Zealand, facilitating the sharing of information among iwi leaders. The Forum holds meetings four times a year at different marae throughout the country and brings together Māori leaders a...

 

アプリケーションソフトウェア

「アプリケーション」はこの項目へ転送されています。英語の意味については「wikt:応用」、「wikt:application」をご覧ください。 この記事には複数の問題があります。改善やノートページでの議論にご協力ください。 出典がまったく示されていないか不十分です。内容に関する文献や情報源が必要です。(2018年4月) 古い情報を更新する必要があります。(2021年3月)出...

Tata Magic Iris

Motor vehicle Tata Magic IrisOverviewManufacturerTata MotorsProduction2010-presentAssemblyPune, India Uttarakhand, IndiaBody and chassisClassMicrovan/MinivanBody style3-door MPVLayoutRR layoutRelatedTata Ace ZipPowertrainEngine0.6 L diesel SinglePower output10.84 hp (8.08 kW)Transmission4-speed TA59 manual transaxle[1]Range300 km (190 mi) (ARAI)DimensionsWheelbase1,650 mm (65.0 in) [1]Length2,960 mm (116.5 in) [1]Width...

 

Laut Libya

Artikel ini tidak memiliki referensi atau sumber tepercaya sehingga isinya tidak bisa dipastikan. Tolong bantu perbaiki artikel ini dengan menambahkan referensi yang layak. Tulisan tanpa sumber dapat dipertanyakan dan dihapus sewaktu-waktu.Cari sumber: Laut Libya – berita · surat kabar · buku · cendekiawan · JSTOR Letak Laut Libya. Definisi batas selatan Laut Ionia (perbatasannya sama dengan utara Laut Libya). Merah: definisi perbatasan oleh Organisasi...

 

Family court

Court dealing with matters of family law The examples and perspective in this Anglophone world and former British Empire may not represent a worldwide view of the subject. You may improve this Anglophone world and former British Empire, discuss the issue on the talk page, or create a new Anglophone world and former British Empire, as appropriate. (March 2024) (Learn how and when to remove this message) The Federal Court Building on the corner of La Trobe Street and William Street, the locatio...

Compagnia di San Giorgio

A questa voce o sezione va aggiunto il template sinottico {{Unità militare}} Puoi aggiungere e riempire il template secondo le istruzioni e poi rimuovere questo avviso. Se non sei in grado di riempirlo in buona parte, non fare nulla; non inserire template vuoti. Il nome compagnia di San Giorgio si riferisce a tre compagnie di ventura attive nell'Italia medievale nel corso del XIV secolo. Indice 1 La prima Compagnia di San Giorgio di Lodrisio Visconti 2 La seconda Compagn...

 

Émile Jourdan

French painter (1860–1931) The Chapel of Lanriot by Moonlight Émile Jourdan (30 July 1860, in Vannes – 29 December 1931, in Quimperlé) was a French painter who became one of the artists who gathered in the village of Pont-Aven in Brittany. Early life Son of Prosper Jourdan, a ranking customs officer, and his wife Aline Paturel, he enjoyed a happy childhood in Vannes in the south of Brittany. He started painting at the age of 16. In 1880, he attended the École des Beaux-Arts in Paris wh...