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Sains Malaysiana 47(12)(2018): 3025–3030 http://dx.doi.org/10.17576/jsm-2018-4712-12
Isolation and Identification of Endophytic Fungi
from UiTM Reserve Forest, Negeri Sembilan (Pemencilan dan Pengenalpastian Kulat Endofit
dari Hutan Simpan UiTM Negeri Sembilan)
SITI NURSYAZWANI
MAADON1, SARINI AHMAD WAKID1, IWANA IZNI
ZAINUDIN1, LILI SYAHANI RUSLI1, MOHD SYAHRIL
MOHD ZAN1, NOR'AISHAH HASAN1, NOR'AISHAH
ABU SHAH1 & EMELDA ROSSELEENA ROHANI2*
1Faculty of Applied Sciences, Universiti
Teknologi MARA, Cawangan Negeri Sembilan, 72000 Kuala Pilah, Negeri Sembilan
Darul Khusus, Malaysia
2Institute of Systems Biology, Universiti Kebangsaan Malaysia,
43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
Diserahkan: 30 Mei 2018 /Diterima: 18 September
2018
ABSTRACT
Endophytic fungi are those living inside
the host plant without causing any apparent negative effect on
the host plant. Two isolates endophytic fungi from leaves and
two isolates from root at Universiti Teknologi MARA (UiTM) Reserve Forest, Negeri
Sembilan were successfully isolated and identified by morphology
and molecular characteristic. Samples were surface sterilized
and sub-cultured to obtain a pure culture. Characteristics of
the isolates such as colony appearance, mycelial texture, conidia/spores
and pigmentation were studied to explore their morphology. Isolates
were also subjected to a PCR-based
genotyping test. There were noticeable differences in morphological
characteristics among the four isolates. Microscopic analysis
showed four isolates consist of septa and conidia/spores. The
pigmentation result showed that colony in A1leaf samples demonstrated an orange color on potato dextrose
agar (PDA) media, colony in A1root
demonstrate a black texture in PDA media
while hairy colonies in the others two isolates showed a white
color on
PDA media. Based on molecular analyses the fungal
genera showed 99-100% similarity with the related fungi recorded
in the GenBank. Both morphology and molecular sequencing of internal
transcribed spacer (ITS)
regions of endophytic fungi showed that three isolates (A1root,
C2leaf, and C3root) were grouped in Basidiomycota
while one isolate (A1leaf) belonged to Ascomycota.
The endophyte funguses were identified as Daldinia sp.
(A1leaf),
Polyporales sp. (A1root,) Lentinus sp. (C2leaf,)
and Rigidoporus sp. (C3root). Overall, the new discoveries
of isolated endophyte fungal have dyeing potential of fungal pigments
which offer a viable alternative to natural vegetable and harmful
synthetic dyes.
Keyword: Endophyte fungi;
identification; morphological characteristic
ABSTRAK
Kulat endofit yang hidup di dalam tumbuhan
perumah tanpa menyebabkan sebarang kesan negatif yang jelas terhadap
tumbuhan perumah. Dua pencilan kulat endofit daripada daun dan
dua pencilan daripada akar dari Hutan Simpan Universiti Teknologi
MARA (UiTM),
Negeri Sembilan telah berjaya dipencilkan dan dikenal pasti daripada
segi morfologi dan ciri molekul. Sampel disterilkan pada permukaan
dan di sub-kultur untuk memperoleh kultur tulen. Ciri-ciri pencilan
seperti rupa koloni, tekstur miselium, conidia/spora dan pigmentasi
dikaji untuk meneroka morfologi mereka. Pencilan juga dijalankan
untuk ujian genotip berasaskan PCR.
Terdapat perbezaan yang ketara di dalam ciri-ciri morfologi dalam
kalangan empat pencilan. Analisis mikroskopik menunjukkan empat
pencilan terdiri daripada septum dan conidia/spora. Keputusan
pigmentasi menunjukkan bahawa koloni di dalam sampel A1daun menunjukkan warna jingga pada media
dekstrose agar (PDA), koloni di dalam A1akar
menunjukkan tekstur hitam di dalam media PDA manakala
koloni berbulu di dua lagi pencilan menunjukkan media PDA berwarna
putih. Berdasarkan analisis molekul, genus kulat menunjukkan persamaan
99-100% dengan kulat yang berkaitan yang direkodkan di dalam bank
Gen. Kedua-dua morfologi dan jujukan molekul di kawasan mentranskripsi
penjarak dalaman (ITS)
kulat endofit mendedahkan bahawa tiga pencilan (A1akar,
C2daun, dan C3akar) dikelompokkan di dalam Basidiomycota
manakala satu pencilan (A1daun) tergolong di dalam Ascomycota.
Kulat endofit dikenal pasti sebagai Daldinia sp. (A1daun),
Polyporales sp. (A1akar,) Lentinus sp. (C2daun,)
dan Rigidoporus sp. (C3akar). Secara keseluruhannya,
penemuan baru pencilan kulat endofit mempunyai potensi pewarnaan
pigmen daripada pigmen kulat yang menawarkan alternatif terkedepan
kepada sayur-sayuran semula jadi dan pewarna sintetik yang merbahaya.
Kata
kunci: Ciri morfologi; kulat endofit; pengenalpastian
RUJUKAN
Anchana, A. 2014. Extraction of natural
dyes from fungus - an alternate for textile dyeing. Journal of Natural
Sciences 4(7): 1-7.
Anderson, I.C., Campbell, C.D. &
Prosser, J.I. 2003. Potential bias of fungal 18S rDNA and internal transcribed
spacer polymerase chain reaction primers for estimating fungal biodiversity in
soil. Applied and Environmental Microbiology 5: 36-47.
Bałazy, S., Wrzosek, M., Sosnowska,
D., Tkaczuk, C. & Muszewska, A. 2008. Laboratory trials to infect insects
and nematodes by some acaro- pathogenic Hirsutella strains (Mycota: Clavicipitaceous
anamorphs). Journal of Invertebrate Pathology 97: 103-113.
Barnett, H.L. & Hunter, B.B. 1998. Illustrated
Genera of Imperfect Fungi, 4th ed. Minnesota: American Phytopathological
Society Press.
Barseghyan, G.S. & Wasser, S.P. 2010.
Species diversity of hypogeous ascomycetes in Israel. Mycobiology 38(3):
159- 165.
Ellis, M.B. 1971. Dematiaceous
Hyphomycetes. 1st ed. England: Commonwealth Mycological Institute.
Evidence-Based Complementary and Alternative Medicine.
Guo, L.D., Hyde, K.D. & Liew, E.C.Y.
2000. Identification of endophytic fungi from Livistona chinensis based
on morphology and rDNA sequences. The New Phytologist 147(3): 617-630.
Jiaojiao, S., Wattanachai, P. &
Kasem, S. 2016. Isolation and identification of endophytic fungi from 10
species palm trees. Journal of Agricultural Technology 12(2): 349-363.
Leslie, J.F. & Summerell, B.A. 2007. The
Fusarium Laboratory Manual. Iowa, USA: Blackwell Publishing Ltd.
Liu, L., Liu, S., Jiang, L., Chen, X.,
Guo, L. & Che, Y. 2008. Chloropupukeananin, the first chlorinated
pupukeanane derivative and its precursors from Pestalotiopsis fici. Organic
Letters 10(7): 1397-1400.
Lord, N.S., Kaplan, C.W., Shank, P.,
Kitts, C.L. & Elrod, S.L. 2002. Assessment of fungal diversity using
terminal restriction fragment pattern analysis: Comparison of 18S and ITS
ribosomal regions. FEMS Microbiology Ecology 42: 327-337.
Lu, Y., Chen, C., Chen, H., Zhang, J.
& Chen, W. 2012. Isolation and identification of endophytic fungi from Actinidia
macrosperma and investigation of their bioactivities. Evidence-Based
Complementary and Alternative Medicine 2012: Article ID. 382742.
Martinez-Klimova, E., Rodríguez-Peña, K.
& Sánchez, S. 2017. Endophytes as sources of antibiotics. Biochemical
Pharmacology 134: 1-17.
Parthibhan, S., Rao, M.V. & Kumar,
T.S. 2017. Culturable fungal endophytes in shoots of Dendrobium aqueum Lindley
- An imperiled orchid. Ecological Genetics and Genomics 3(5): 18-24.
Porras-Alfaro, A. & Bayman, P. 2011.
Hidden fungi, emergent properties: Endophytes and microbiomes. Annual Review
of Phytopathology 49(1): 291-315.
Qiu, M., Xie, R., Shi, Y., Chen, H., Wen,
Y., Gao, Y. & Hu, X. 2010. Isolation and identification of endophytic
fungus SX01, a red pigment producer from Ginkgo biloba L. World
Journal of Microbiology and Biotechnology 26(6): 993-998.
Rodriguez, R.J., White Jr., J.F., Arnold,
A.E. & Redman, R.S. 2009. Fungal endophytes: Diversity and functional
roles. New Phytologist 182(2): 314-30.
Saad, D.S., Kinsey, G.C., Kim, S. &
Gaylarde, C.C. 2004. Extraction of genomic DNA from filamentous fungi in
biofilms on water-based paint coatings. International Biodeterioration &
Biodegradation 54: 99-103.
Stadler, M., Læssøe, T., Fournier, J.,
Decock, C., Schmieschek, B., Tichy, H.V. & Peršoh, D. 2014. A
polyphasic taxonomy of Daldinia (Xylariaceae). Studies in Mycology 77(1):
1-143.
Velmurugan, P., Kamala-kannan, S.,
Balachandar, V., Lakshmanaperumalsamy, P., Chae, J. & Oh, B. 2010. Natural
pigment extraction from five filamentous fungi for industrial applications and
dyeing of leather. Carbohydrate Polymers 79(2): 262-268.
Venugopalan, A. & Srivastava, S.
2015. Endophytes as in vitro production platforms of high value plant
secondary metabolites. Biotechnology Advances 33: 873- 887.
Verma, V.C., Kharwar, R.N. & Strobel,
G.A. 2009. Chemical and functional diversity of natural products from plant
associated endophytic fungi. Natural Product Communications 4(11):
1511-1532.
*Pengarang untuk surat-menyurat; email: emelda@ukm.edu.my
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