¦æ¨Æ¾ä
¤W­Ó¤ë2024¦~ 11¤ë¤U­Ó¤ë
¤é ¤@ ¤G ¤T ¥| ¤­ ¤»
1 2
3 4 5 6 7 8 9
10 11 12 13 14 15 16
17 18 19 20 21 22 23
24 25 26 27 28 29 30
¤µ¤Ñ
 ¥D¿ï³æ
 ¥Xª©¥Zª«
 ³X°Ý²Î­p

 ÀH¾÷¤p»y
·L¯º¬O«O«ù°·±dªº¨}ÃÄ¡A¤£¥Îªá¤@¤À¿ú¡C

[©`´µ¤ñ¯S]
 ÀH¾÷¤å³¹
¹Aªª¦¯¥Z2006¦~6¤ë25¤é (1991)
§ù¬¥§J¤½½Þ¦X·Ó(¤¤¤å) (1428)
¤¤°ê¯bªª2008¦~¤C¤ë¸¹ (1476)
¬ù§J®L¤½½Þ¦X·Ó(­^¤å) (1054)
¹Aªª¦¯¥Z2010¦~11¤ë5¤é (818)
 ¼öªù³sµ²ºô¯¸


¤À­¶¥Ø¿ý
1. ¤Ñ¾·¨Å¤û¤§¦³§QÁc´Þ°ò¦]¿z¿ï
2. ¥xÆW¥»¦a¶Â¤s¦Ï·L½Ã¬P¿ò¶Ç¼Ð°O¦h¼Ë©Ê¤ÀªR
3. ¥xÆW§ù¬¥§J¯Å¶i¤@¥N¤½½Þ©Ê¯à¤§µû¦ô
4. ¥xÆW¶À¤û²É½uÅéDÀô°Ï§Ç¦CÅܲ§¤ÀªR
5. ¥xÆW¶À¤û·L½Ã¬P¿ò¶Ç¼Ð°O¦h¼Ë©Ê¤ÀªR
6. §ù¬¥§J¥À½Þ»P°t°ª¯b¶Â¤½½Þ¤§«á¸Ç©Ê¯àªí²{
7. ­@¼ö«¬¥xÆW¨Å¤û¤§°ö¨|
8. ·L½Ã¬P¿ò¶Ç¼Ð°O¤ÀªR°ª²£§ù¬¥§JºØ½Þ°ò¦]ÀW²v
9. ÂÅ·ç´µ¥À½Þ»P»«®Ô¤½½ÞÂø¥æºØ¦Û¥æ«á¸ÇF2¤§¥Íªø©Êª¬»P±OÅé©Êª¬
²Ä¤T¤Q¤K¨÷(2009)
54.¥xÆW¶À¤û·L½Ã¬P¿ò¶Ç¼Ð°O¦h¼Ë©Ê¤ÀªR

ªL¼w¨| §õ¥ú´_ ¿à¥Ã¸Î ¶À¬F»ô §d©ú­õ

¦æ¬F°|¹A·~©e­û·|¯b²£¸ÕÅç©Ò
¡@
¥xÆW¶À¤û¬O¥xÆW­«­nªº¥»¤g¯b²£°Êª«¡A¦Û1987¦~°_³]¥ß°ê®a«OºØ³õ©ó¦æ¬F°|¹A·~©e­û·|¯b²£¸ÕÅç©ÒùÚ¬K¤À©Ò¡A¦Ü¤µ¥xÆW¶À¤û¿ò¶Ç¦h¼Ë©Ê¸ê®Æ¤´µM¦³­­¡C¥»¸ÕÅç§Q¥ÎFAO(2004)«Øij¨Ï¥Îªº¤û·L½Ã¬P¼Ð°O²Õ¡A¥H¨ä¤¤12²Õ¤û·L½Ã¬P¼Ð°O¤ÀªR¦æ¬F°|¹A·~©e­û·|¯b²£¸ÕÅç©ÒùÚ¬K¤À©Ò¥xÆW¶À¤û«OºØ±Ú¸s93ÀY¥xÆW¶À¤û­ÓÅ餧DNA¡A©Ò¦³12²Õ·L½Ã¬P¼Ð°O¬Ò¦³¦hºA«¬ªº°ò¦]«¬¡C¨ã¦hºA«¬ªº·L½Ã¬P¼Ð°O²Õ¦@ÀË´ú¨ì106­Óalleles¡A¥­§¡¨C­Ó°ò¦]®y¨ã¦³8.8­Ó¹ï°¸°ò¦](5~13­Óalleles)¡A¨äÆ[´ú²§½è«×¤¶©ó0.37¨ì0.87¡A¥­§¡¬°0.57 ¡Ó 0.15¡A´Á±æ²§½è«×¤¶©ó0.52¨ì0.83¡A¥­§¡¬°0.73 ¡Ó 0.09¡A¦Ó¦hºA©Ê°T®§§t¶q¥­§¡¬°0.69 ¡Ó 0.10¡C¦b¥»¸ÕÅç¿ï¥Îªº12²Õ·L½Ã¬P¼Ð°O²Õ¬Ò¦³¦hºA«¬ªº°ò¦]«¬¡A¥B°£BM1824·L衞¬P¼Ð°O¤§¦hºA©Ê°T®§§t¶q¬°¤¤¦hºA©Ê¸ê°T(0.25¡@
ÃöÁä»y¡G¥xÆW¶À¤û¡B¿ò¶Ç¦h¼Ë©Ê¡B·L衞¬P¼Ð°O

¡@
GENETIC DIVERSITY ANALYSIS OF TAIWAN YELLOW CATTLE BY MICROSATELLITE MARKERS
¡@
D.Y. Lin, G.F. Li, Y.Y. Lai, J.C. Huang and M.C. Wu

Livestock Research Institute(LRI), Council of Agriculture
¡@
Taiwan Yellow Cattle is an important indigenous farm animal in Formosa Island. The conservation population was in Hengchung Branch of LRI since 1987. However, the information of genetic diversity of Taiwan Yellow Cattle was very limited. To study the genetic diversity, a set of 12 microsatellite markers recommended for cattle in FAO¡¦s DADIS MoDAD programme were utilized. The study was carried out on 89 animals to generate genotype data. All of the microsatellites were polymorphic with average allelic number 8.8, ranged from 5 to 13 per locus. There were 106 alleles detected in total. The observed heterozygosity of the population ranged from 0.37 to 0.87, and the average observed heterozygosity was 0.571¡Ó0.15(mean¡ÓSD). The expected heterozygosity ranged from 0.52 to 0.83, and the average expected heterozygosity was 0.73¡Ó0.09. The estimated average polymorphic information content (PIC) was 0.69¡Ó 010. Except BM1824 was reasonably informative (0.50 > PIC > 0.25), all the microsatellites were highly informative highly informative (PIC > 0.50). Our result indicated that the geneticists have paid more attention in keeping genetic diversity of the Taiwan Yellow Cattle herd.
¡@
Key Words: Taiwan Yellow Cattle, Genetic diversity, Microsatellite marker

¤Íµ½¦C¦LÂà±H¦n¤Í ¿é¥X¬° PDF ®æ¦¡

  << List | Home | Top >> ²Ä¤T¤Q¤K¨÷(2009) © Copyright 2024 shuYing & ¥xÆW¯b²£ºØ­ìª¾ÃÑ®w
 visiter

 ·j´M

¶i¶¥·j´M

 ¹q¤l¬Ûï
ºØ­ì¤¤¤ßDNA²¾¦a³Æ¥÷³]¬I

 ÀH¾÷¦n®Ñ

 ¹Ù¦ñºô¯¸

http://www.angrin.tlri.gov.tw

http://www.naif.org.tw/

http://www.coa.gov.tw

http://www.tlrihc.gov.tw/

http://minipigs.angrin.tlri.gov.tw