Алматы технологиялық университетінің хабаршысы . 2023. № 2. 36
Georgeta Ciurescu, Mariana Ropota, Anca Gheorghe
//Archiva Zootechnica 17:1, (2014): 77-91.
15. Ren, S.C., Liu, Z. L. and Ding, X. L. Isola-
tion and identification of two novel flavone glycosides
from corn silk (Stigma maydis). // Journal of Medicinal
Plants Research,
3 (12), (2009):1009-1015.
16. Hu, Q. L., Zhang, L. J., Li, Y. N., Ding, Y.
J. and Li, F. L. Purification and anti-fatigue activity of
flavonoids from corn silk. // International Journal of
Physical Sciences, 5(4), (2010): 321-326.
17.
Hu Q. I., Deng Z. I. “Защитные эффекты
флавоноидов из кукурузного шелка на окислитель-
ный стресс, вызванный исчерпывающими физиче-
скими упражнениями у мышей”
//
Африканский жур- нал биотехнологии , том 10, 2011.
- C. 3163-3167.
18. Zhang, Y.L., Wu, Z., Ma, J. C
heng и Liu, J.
Антидиабетическая,
антиоксидантная и антигипер
-
липидемическая активность флавоноидов из куку
-
рузного шелка на STZ
-
индуцированных диабе
-
тических мышах
. //
Molecules , vol. 21, (2016): 7.
19. Rahman, N.A. and Rosli, W.I.W. Nutrition-
al compositions and antioxidative capacity of the silk
obtained from immature and mature corn. //
Journal of
King Saud University-Science, 26(2), (2014): 119-127.
20.
Подобед, Л. Питательная ценность жмы
-
ха из зародыша кукурузы
// Комбикорма №5
, 2011.
-C.57-59.
REFERENCES
1. Gayazova, A.O. Ispol'zovanie vtorichnogo i
rastitel'nogo syr'ya v produktah funkcional'nogo
naznacheniya [The use of secondary and vegetable raw
materials in functional products] // Nauchnyj zhurnal
«Molodoj uchenyj». № 19 (78), 2014.
- S 189-191.
2. Alibekov, R., Sikoski, M., Urazbayeva, K.
Physico-chemical study of macro - and microelement
composition of the enriched macaroni products //
News of the Academy of Sciences of the Republic of
Kazakhstan, series: Chemistry and technology.
–
2017.
- Vol.3(423). -
Р. 13
-20. ISSN:2224-5286.
3. SHazzo, A.A. Sushchestvuyushchie i perspek-
tivnye napravleniya kompleksnoj pererabotki zerna ku-
kuruzy [Existing and promising areas of integrated corn
grain processing] //Novye tekhnologii. Vyp.2- Majkop:
izd-vo GOU VPO
«MGTU», 2011.
- S.54-58.
4. Butin, E.A., Pishchevaya cennost' i fiziolog-
icheskaya aktivnost' kukuruznyh masel [Nutritional
value and physiological activity of corn oils] // Ma-
ter.mezhd.nauch. - prakt. konf. Kubanskogo gosudar-
stvennogo tekhnologicheskogo universiteta, 2009.
–
S.16-18.
5. Ahmad Shakani Abdullah, Marry Tracy
Pawan. Zea Mays flour //
Borneo Akademika UiTM Cawangan Sabah Vol. 4 Special Issue (September
2020): 19
–
25.
6. Nurhanan, A.R., Wan Rosli W.I., Mohsin
S.S.J. Total Polyphenol Content and Free Radical
Scavenging Activity of Cornsilk (Zea mays hairs) //
Sains Malaysiana 41(10) (2012): 1217
–
1221.
7. Solihah, M.A., Wan Rosli, W.I. and Nurhanan,
A.R. Phytochemicals screening and total phenolic content
of Malaysian
Zea mays hair extracts. //
International Food Research Journal 19(4) (2012) :-1533-1538.
8. Ajtbaeva A.ZH., Alibekov R.S. Ispol'zovanie
pobochnyh produktov pererabotki zernovyh kul'tur v
pishchevoj promyshlennosti. [The use of by-products
of cereal processing in the food industry] In The 12 th
International scientific and practical conference “Mod-
ern directions of scientific research development
”
BoScience Publisher, Chicago, USA. (May 18-20,
2022): 215-217.
9. Alibekov, R.S., Kaiypova, A.B., Urazbayeva,
K.A., Ortayev, A.E. & Azimov, A.M. Effect of substi-
tution of sugar by high fructose corn syrup of the confi-
ture on the base of physalis //
“
Periodico Tche Quimi- ca” ,
16 (32), (2019): 688-697.
10. Moris, F., Mikroanaliz i rastrovaya el-
ektronnaya mikroskopiya: uchebnik [Microanalysis
and scanning electron microscopy] / L.Meni i R.Tiske;
pod obshch.red. I. B. Borovskogo. M.: Metallurgiya,
1985. - 408 s.
11. Tompson M., Uolsh D.N. i Gul'ko N.I. (1988).
Rukovodstvo po spektrometricheskomu analizu s in-
duktivnosvyazannoj plazmoj. [Guide to Spectrometric
Analysis with Inductively Coupled Plasma.] V. B. Belya-
nin (Red.). Nedra. (Rukovodstvo po spektrometrichesko-
mu analizu s induktivnoj i svyazannoj plazmoj).
12. Nabieva, ZH.S., Kizatova, M.ZH., Ku-
lazhanov, K.S. Vliyanie processa prorashchivaniya na
povyshenie antioksidantnoj aktivnosti i biologicheskoj
cennosti zerna kukuruzy [Influence of the germination
process on the increase of antioxidant activity and bio-
logical value of corn] // Scientific works of UFT Vol-
ume LIX-2-
12 “Food science, engineering and tech-
nologies”, 2012.
- S.288-291.
13. Kuchtova, V., Minarovicova, L., Kohajdova,
Z., Karovicova J. Effect of wheat and corn germs addi-
tion on the physical properties and sensory quality of
crackers //
Scientific Journal for Food Industry , no. 1,
vol. 10, (2016), : 543-549.
14. Georgeta Ciurescu. Effect of various levels of
corn germ on growth performance, carcass characteris-
tics and fatty acids profile of thigh muscle in broiler
chickens / Georgeta Ciurescu, Mariana Ropota, Anca
Gheorghe //Archiva Zootechnica 17:1, (2014): 77-91.
15. Ren, S.C., Liu, Z. L. and Ding, X. L. Isola-
tion and identification of two novel flavone glycosides
from corn silk (Stigma maydis). // Journal of Medicinal
Plants Research,
3 (12), (2009):1009-1015.
16. Hu, Q. L., Zhang, L. J., Li, Y. N., Ding, Y.
J. and Li, F. L. Purification and anti-fatigue activity of
flavonoids from corn silk. // International Journal of
Physical Sciences, 5(4), (2010): 321-326.
17.
Hu Q. I., Deng Z. I. “Zashchitnye effekty
flavonoidov iz kukuruznogo shelka na okislitel'nyj
stress, vyzvannyj ischerpyvayushchimi fizicheskimi
uprazhneniyami u myshej” [Pro
tective effects of corn
silk flavonoids on oxidative stress induced by exhaus-